The CUP1 promoter of Saccharomyces cerevisiae is inducible by copper in Pichia pastoris

We report the construction of a Pichia pastoris integrating vector which contains the inducible CUP1 promoter from Saccharomyces cerevisiae. We show that the promoter is indeed inducible by copper when used in P. pastoris and that the level of induction is dependent on the amount of copper in the medium.

Simultaneously increased TxA(2) activity in isolated arterioles and platelets of rats with hyperhomocysteinemia

We aimed to elucidate the effect of hyperhomocysteinemia (HHcy) on the synthesis of prostaglandins in rat skeletal muscle arterioles and platelets. Male Wistar rats were divided into 2 groups: (1) control rats, with plasma Hcy levels of 6.5+/-0.5 micromol/L (n=50) and (2) rats with HHcy, induced by daily intake of 1 g/kg body weight methionine in the drinking water for 4 weeks (plasma Hcy levels were 20.6+/-3.0 micromol/L, P<0.01 versus controls; n=50). Arterioles (diameter approximately 130 micrometer) were isolated from the gracilis muscle, cannulated, and pressurized (at 80 mm Hg), and changes in their diameters were followed by video microscopy. Constrictions to bradykinin (BK; 10(-10) to 10(-7) mol/L) were significantly greater in HHcy than in control rat arterioles (at 10(-9) mol/L BK, changes were 11+/-3% in control and 41+/-9% in HHcy rats). The cyclooxygenase inhibitor indomethacin (10(-5) mol/L), the prostaglandin H(2)/thromboxane A(2) (PGH(2)/TxA(2)) receptor antagonist SQ 29,548 (10(-6) mol/L), or the TxA(2) synthase inhibitor furegrelate (5x10(-6) mol/L) significantly decreased constrictions to BK in both groups but more so in HHcy arterioles, thus eliminating the difference between responses of HHcy and control arterioles. Constrictions to U46619 (a TxA(2) analogue) were significantly greater in HHcy than in control arterioles (at 10(-8) mol/L U46619, values for controls were 33+/-2% and 54+/-3% for HHcy). Endothelium removal or indomethacin treatment attenuated constrictions to U46619 in HHcy arterioles and eliminated the difference in responses. Also, aggregation of platelets from HHcy rats to collagen and ADP was significantly enhanced compared with controls (with 5 microgram/mL collagen: controls, 23+/-5%; HHcy, 49+/-5%; with 10(-7) mol/L ADP: controls, 25+/-3%; HHcy, 35+/-3%). Indomethacin or SQ 29,548 caused greater inhibition of aggregation of HHcy platelets compared with controls, thereby eliminating the differences between the 2 groups. Thus, HHcy enhances TxA(2) synthesis both in the arteriolar endothelium and platelets. By promoting vascular constriction and platelet aggregation simultaneously, these alterations are likely to contribute to the atherothrombotic vascular diseases described in HHcy.

Shear stress-induced release of prostaglandin H(2) in arterioles of hypertensive rats

The nitric oxide-mediated portion of shear stress-induced dilation of rat gracilis muscle arterioles was shown to be impaired in spontaneously hypertensive rats (SHR). Because shear stress-induced dilation is primarily mediated by endothelium-derived prostaglandins in rat cremasteric arterioles, we hypothesized that in the cremasteric vascular bed the mediation of shear stress-induced dilation by prostaglandins is altered in hypertension. At a constant intraluminal pressure of 80 mm Hg, the active diameters of isolated rat cremasteric arterioles of normotensive 30-week-old Wistar-Kyoto rats (WKY) and SHR were 58.0+/-3.1 and 51.7+/-3.6 microm, respectively, whereas their passive diameters were 109.4+/-4.4 and 101.9+/-6.7 microm, respectively. Dilations to increases in shear stress elicited by increases in intraluminal flow (from 0 to 25 microL/min) were significantly less (P<0.05) in cremasteric arterioles isolated from SHR than from WKY. Arachidonic acid (10(-5) mol/L) elicited constrictions in SHR arterioles but dilations in WKY arterioles. The prostaglandin H(2)/thromboxane A(2) (PGH(2)/TxA(2)) receptor antagonist SQ 29,548 (10(-6) mol/L) significantly increased basal diameter by 11% and normalized the attenuated shear stress-induced dilation in SHR, whereas it did not affect basal diameter and arteriolar responses of WKY. Furegrelate, a specific inhibitor of TxA(2) synthase, did not affect the response in SHR. Also, SQ 29,548 reversed the arachidonic acid-induced constriction to dilation in SHR arterioles, whereas it did not affect the dilator response in WKY arterioles. Constrictions of arterioles of WKY and SHR to U46,619 (a PGH(2)/TxA(2) receptor agonist) were not different. These results demonstrate that in cremasteric arterioles of hypertensive rats, shear stress elicits an enhanced release of PGH(2), resulting in a reduced shear stress-dependent dilation. Thus, augmented hemodynamic forces can alter the shear stress-induced synthesis of prostaglandins, which may contribute to the elevated vascular resistance in hypertension.

In eNOS knockout mice skeletal muscle arteriolar dilation to acetylcholine is mediated by EDHF

The mechanisms that account for acetylcholine (ACh)-induced responses of skeletal muscle arterioles of mice lacking endothelial nitric oxide (NO) synthase (eNOS-KO) were investigated. Isolated, cannulated, and pressurized arterioles of gracilis muscle from male eNOS-KO (74.1 +/- 2.3 microm) and wild-type (WT, 87.2 +/- 2.1 microm) mice developed spontaneous tone accounting for 63 and 61% of their passive diameter (116.8 +/- 3.4 vs. 143.2 +/- 2.8 microm, respectively) and dilated dose-dependently to ACh (10(-9)-10(-7) M). These dilations were significantly smaller in vessels of eNOS-KO compared with WT mice (29.2 +/- 2.0 microm vs. 46.3 +/- 2.1 microm, at maximum concentration) but responses to the NO donor, sodium nitrite (NaNO(2), 10(-6)-3 x 10(-5) M), were comparable in the vessels of the two strains. N(G)-nitro-L-arginine (L-NNA, 10(-4) M), an inhibitor of eNOS, inhibited ACh-induced dilations by 60-90% in arterioles of WT mice but did not affect responses in those of eNOS-KO mice. In arterioles of eNOS-KO mice, dilations to ACh were not affected by indomethacin but were essentially abolished by inhibitors of cytochrome P-450, clotrimazole (CTZ, 2 x 10(-6) M) or miconazole (MCZ, 2 x 10(-6) M), as well as by either high K(+) (40 mM) or iberiotoxin [10(-7) M, a blocker of Ca(2+)-dependent K(+) channels (K(Ca) channels)]. On the other hand, in WT arterioles CTZ or MCZ inhibited ACh-induced dilations only by approximately 10% and only in the presence of L-NNA. These results indicate that in arterioles of eNOS-KO mice, endothelium-derived hyperpolarizing factor (EDHF), synthesized via cytochrome P-450, accounts entirely for the mediation of ACh-induced dilation via an increase in K(Ca)-channel activity. In contrast, in arterioles of WT mice, endothelium-derived NO predominantly mediates ACh-induced dilation in which participation of EDHF becomes apparent only after inhibition of NO synthesis.

Oral creatine supplementation in Duchenne muscular dystrophy: a clinical and 31P magnetic resonance spectroscopy study

The decrease in intracellular creatine concentration in Duchenne muscular dystrophy may contribute to the deterioration of intracellular energy homeostasis and may thus be one of the factors aggravating muscle weakness and degeneration. Oral creatine supplementation should have potential in alleviating the clinical symptoms. To test this hypothesis, creatine was orally administered over a period of 155 days to a 9-year-old patient with Duchenne muscular dystrophy. In accordance with previous investigations on normal subjects and trained athletes, the patient experienced improved muscle performance during creatine supplementation. Further evidence supporting this hypothesis derived from plasma creatine kinase and lactate dehydrogenase activities and repeated 31P magnetic resonance spectroscopy of the gastrocnemius muscle. These preliminary observations indicate a potential role for creatine supplementation in the symptomatic therapy of patients with muscle disease.

Reduced NO-dependent arteriolar dilation during the development of cardiomyopathy

Our previous studies have suggested that there is reduced nitric oxide (NO) production in canine coronary blood vessels after the development of pacing-induced heart failure. The goal of these studies was to determine whether flow-induced NO-mediated dilation is altered in coronary arterioles during the development of heart failure. Subepicardial coronary arterioles (basal diameter 80 microm) were isolated from normal canine hearts, from hearts with dysfunction but no heart failure, and from hearts with severe cardiac decompensation. Arterioles were perfused at increasing flow or administered agonists with no flow in vitro. In arterioles from normal hearts, flow increased arteriolar diameter, with one-half of the response being NO dependent and one-half prostaglandin dependent. Shear stress-induced dilation was eliminated by removing the endothelium. Arterioles from normal hearts and hearts with dysfunction but no failure responded to increasing shear stress with dilation that reached a maximum at a shear stress of 20 dyn/cm(2). In contrast, arterioles from failing hearts showed a reduced dilation, reaching only 55% of the dilation seen in vessels of normal hearts at a shear stress of 100 dyn/cm(2). This remaining dilation was eliminated by indomethacin, suggesting that the NO-dependent component was absent in coronary microvessels after the development of heart failure. Similarly, agonist-induced NO-dependent coronary arteriolar dilation was markedly attenuated after the development of heart failure. After the development of severe dilated cardiomyopathy and heart failure, the NO-dependent component of both shear stress- and agonist-induced arteriolar dilation is reduced or entirely absent.

17beta-estradiol restores endothelial nitric oxide release to shear stress in arterioles of male hypertensive rats

BACKGROUND

Endothelial nitric oxide (NO)-mediated responses are impaired in arterioles of male spontaneously hypertensive rats (SHR), but they are still present in female SHR. We hypothesized that in vitro incubation of arterioles of male SHR with estrogen will restore NO-mediated responses by upregulation of endothelial NO synthase.

METHODS AND RESULTS

Responses to increases in perfusate flow (from 0 to 25 microL/min) and to the calcium ionophore A23187 (5 x 10(-8) to 10(-6) mol/L), norepinephrine (NE; 10(-7) to 3 x 10(-7) mol/L), sodium nitroprusside (SNP; 10(-8) to 10(-6) mol/L), and adenosine (ADO; 10(-6) to 5 x 10(-5) mol/L) were studied in cannulated and pressurized gracilis muscle arterioles ( approximately 75 microm in diameter) isolated from 12-week-old male SHR before and after incubation with 10(-9) mol/L 17beta-estradiol (17beta-E(2)) for 16 to 18 hours. After incubation with 17beta-E(2), basal diameter of arterioles was significantly increased (by approximately 10%), and flow-induced dilation was significantly enhanced (79.8+/-2.9 versus 103.7+/-3.7 microm at 25 microL/min), resulting in a lowered shear stress (62.0+/-9.1 versus 32.5+/-4.2 dyne/cm(2)). Also, vasoconstrictions to A23187 were reversed to dilations (-18.7+/-2.2 versus 18.8+/-1.7 microm), and constrictions to NE were significantly attenuated (-30.7+/-3.0 versus -21.2+/-2.8 microm). These alterations were eliminated by ICI 182,780 (10(-7) mol/L), an estrogen receptor antagonist; 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole (10(-5) mol/L), a transcription inhibitor; or N(omega)-nitro-L-arginine methyl ester (10(-4) mol/L), an inhibitor of NO synthase, whereas they were not affected by aminoguanidine (5 x 10(-5) mol/L), a specific inhibitor of inducible NO synthase. Arteriolar responses were not altered by incubation with 17alpha-estradiol.

CONCLUSIONS

Estrogen, via a receptor-mediated pathway, upregulates endothelial NO synthase gene expression, leading to increased NO production, and restores the regulation of wall shear stress in arterioles of male SHR.

Pex17p is required for import of both peroxisome membrane and lumenal proteins and interacts with Pex19p and the peroxisome targeting signal-receptor docking complex in Pichia pastoris

Pichia pastoris PEX17 was cloned by complementation of a peroxisome-deficient strain obtained from a novel screen for mutants disrupted in the localization of a peroxisomal membrane protein (PMP) reporter. PEX17 encodes a 267-amino-acid protein with low identity (18%) to the previously characterized Saccharomyces cerevisiae Pex17p. Like ScPex17p, PpPex17p contains a putative transmembrane domain near the amino terminus and two carboxyl-terminal coiled-coil regions. PpPex17p behaves as an integral PMP with a cytosolic carboxyl-terminal domain. pex17Delta mutants accumulate peroxisomal matrix proteins and certain integral PMPs in the cytosol, suggesting a critical role for Pex17p in their localization. Peroxisome remnants were observed in the pex17Delta mutant by morphological and biochemical means, suggesting that Pex17p is not absolutely required for remnant formation. Yeast two-hybrid analysis demonstrated that the carboxyl terminus of Pex19p was required for interaction with Pex17p lacking the carboxyl-terminal coiled-coil domains. Biochemical evidence confirmed the interaction between Pex19p and Pex17p. Additionally, Pex17p cross-linked to components of the peroxisome targeting signal-receptor docking complex, which unexpectedly contained Pex3p. Our evidence suggests the existence of distinct subcomplexes that contain separable pools of Pex3p, Pex19p, Pex17p, Pex14p, and the peroxisome targeting signal receptors. These distinct pools may serve different purposes for the import of matrix proteins or PMPs.

Flow reduces the amplitude and increases the frequency of lymphatic vasomotion: role of endothelial prostanoids

Fluid dynamic forces have substantial effects on the movement of lymph and activity of lymph vessels. The effect of increases in intraluminal flow on spontaneous pumping activity of isolated collecting lymphatics has not yet been characterized in a condition in which the intraluminal pressure is constant. Thus, in afferent lymph microvessels isolated from rat iliac lymph nodes, changes in maximum (Dmax) and minimum (Dmin) diameter to increases in perfusate flow were investigated in the presence of a constant perfusion pressure of 6 cmH2O. Intraluminal flow was elicited by increases in the difference between outflow and inflow pressures (Pdiff, from 0 to 6 cmH2O). Diameters were measured by videomicroscopy. In response to increases in perfusate flow, Dmax and Dmin of lymphatics decreased from 157.5 +/- 6.1 to 90.9 +/- 5.6 micron and from 91.9 +/- 5.3 to 66.3 +/- 3.6 micron, respectively, whereas vasomotion frequency increased from 18.0 +/- 0.7 min(-1) to 23.4 +/- 1.1 min(-1) (at Pdiff of 4 cmH2O). Removal of extracellular Ca2+ abolished spontaneous diameter oscillations; under these conditions the passive diameter of lymphatics was 216.0 +/- 7.1 micron and did not change in response to increases in perfusion. In the absence of endothelium, flow-induced changes in Dmax, Dmin, and oscillation frequency were eliminated. Nomega-nitro-L-arginine methyl ester, an inhibitor of nitric oxide synthase, did not affect flow-induced changes in diameter of lymphatics. In contrast, indomethacin, an inhibitor of prostaglandin synthesis, or SQ-29,548, a PGH2/thromboxane A2 (PGH2/TxA2) receptor blocker, inhibited the perfusion-induced reduction of Dmax and Dmin of lymphatics and also the increase in the frequency of vasomotion. These findings suggest that the sensitivity of lymphatic endothelium to increases in intraluminal flow could provide an important local intrinsic mechanism for the control of lymphatic resistance by release of constrictor prostanoids PGH2/TxA2.

Development of nitric oxide and prostaglandin mediation of shear stress-induced arteriolar dilation with aging and hypertension

We hypothesized that during hypertension, the impairment of mediation of shear stress-induced dilation by nitric oxide (NO) is due to the prevailing hemodynamic forces, and that mediation of this response by NO should still be present in young spontaneously hypertensive rats (SHR). Thus, responses to increases in perfusate flow eliciting increases in wall shear stress were investigated in pressurized (80 mm Hg), isolated arterioles ( approximately 70 to 100 microm) of the left or right gracilis muscle obtained from the same WKY and SHR at 4 and 12 weeks of age. Flow-induced dilations were similar in WKY and SHR at 4 weeks (maximum, 26.5+/-1.8 and 24. 2+/-2.0 microm, respectively). Also, the middle of the upward portion of the shear stress-diameter curves was similar in arterioles of the 2 strains. Inhibition of NO synthase with N(omega)-nitro-L-arginine (L-NNA) or inhibition of synthesis of prostaglandins (PGs) with indomethacin elicited an approximately 50% reduction in flow-dependent dilation, whereas their combined administration eliminated the responses in both groups. In arterioles of 12-week-old WKY, flow-induced dilation became significantly greater (maximum, 46.1+/-2.3 microm) than responses of arterioles of 4-week-old WKY and 12-week-old SHR (maximum, 18.3+/-5. 9 microm), which shifted only the shear stress-diameter curve of the 12-week-old WKY significantly to the left. Also, at 12 weeks of age, flow-dependent dilation of arterioles from SHR is mediated solely by PGs. Thus, shear stress-induced arteriolar dilation is mediated by NO and PGs in 4-week-old WKY and SHR. With aging, the release of NO and PGs increases in normotensive rats, whereas the contribution of NO to the regulation of shear stress disappears in 12-week-old SHR, which suggests that this change is probably caused by the increase in intraluminal pressure as hypertension develops.

Fluoxetine dilates isolated small cerebral arteries of rats and attenuates constrictions to serotonin, norepinephrine, and a voltage-dependent Ca(2+) channel opener

BACKGROUND AND PURPOSE

Recent clinical observations question that the antidepressant effect of fluoxetine (Prozac) can be explained solely with serotonin reuptake inhibition in the central nervous system. We hypothesized that fluoxetine affects the tone of vessels and thereby modulates cerebral blood flow.

METHODS

A small branch of rat anterior cerebral artery (195+/-15 microm in diameter at 80 mm Hg perfusion pressure) was isolated, cannulated, and pressurized (at 80 mm Hg), and changes in diameter were measured by videomicroscopy.

RESULTS

Fluoxetine dilated small cerebral arteries with an EC(50) of 7.7+/-1.0x10(-6) mol/L, a response that was not affected by removal of the endothelium or application of 4-aminopyridine (an inhibitor of aminopyridine-sensitive K(+) channels), glibenclamide (an inhibitor of ATP-sensitive K(+) channels), or tetraethylammonium (a nonspecific inhibitor of K(+) channels). The presence of fluoxetine (10(-6) to 3x10(-5) mol/L) significantly attenuated constrictions to serotonin (10(-9) to 10(-5) mol/L) and norepinephrine (10(-9) to 10(-5) mol/L). Increasing concentrations of Bay K 8644 (a voltage-dependent Ca(2+) channel opener, 10(-10) to 10(-6) mol/L) elicited constrictions, which were markedly reduced by 2x10(-6) and 10(-5) mol/L fluoxetine, whereas 3x10(-5) mol/L fluoxetine practically abolished the responses.

CONCLUSIONS

Fluoxetine elicits substantial dilation of isolated small cerebral arteries, a response that is not mediated by endothelium-derived dilator factors or activation of K(+) channels. The finding that fluoxetine inhibits constrictor responses to Ca(2+) channel opener, as well as serotonin and norepinephrine, suggests that fluoxetine interferes with the Ca(2+) signaling mechanisms in the vascular smooth muscle. We speculate that fluoxetine increases cerebral blood flow in vivo, which contributes to its previously described beneficial actions in the treatment of mental disorders.

Increased myogenic tone in skeletal muscle arterioles of diabetic rats. Possible role of increased activity of smooth muscle Ca2+ channels and protein kinase C

OBJECTIVE

The diabetes mellitus-induced microangiopathy is still not clearly characterized. In this study we aimed to elucidate the effect of streptozotocin (STZ)-induced diabetes on myogenic response of isolated rat skeletal muscle arterioles and the mechanisms responsible for its alterations.

METHODS

Male rats were divided into two groups: (1) control rats (C, plasma glucose: 6.4 +/- 0.5 mmol/l, n = 40) (2) diabetic rats (DM, 65 mg/kg STZ i.v., plasma glucose: 25.7 +/- 0.7 mmol/l, n = 40). Changes in diameter of isolated, cannulated gracilis skeletal muscle arterioles (approximately 130 microns in diameter) were measured by video-microscopy.

RESULTS

Step increases in perfusion pressure (PP; from 10 to 140 mmHg) elicited significantly greater constrictions in DM than in C gracilis arterioles, in the presence of the endothelium (E). Also, a step increase in PP (from 40 to 100 mmHg) elicited greater and faster constrictions in DM vs. C arterioles. There were no significant differences in the pressure-passive diameter (in Ca2+ free solution) curves of arterioles. Dilations to acetylcholine were impaired in arterioles of DM as compared to those of C rats (EC50, C: 4.0 +/- 0.9 x 10(-9) mol/l, DM: 4.8 +/- 2.0 x 10(-8) mol/l (p < 0.01), and unaffected by inhibition of nitric oxide synthesis with L-NNA (10(-4) mol/l). Arteriolar constrictions to norepinephrine (NE) were significantly greater in DM compared to those of C rats (EC50, C: 6.2 +/- 0.6 x 10(-7) mol/l, DM: 8.0 +/- 2.0 x 10(-8) mol/l, p < 0.01) both in the presence and absence of E. In the absence of the E, constrictions to increases in pressure, or Ca2+ (0.25-7.5 mmol/l), or the voltage-dependent Ca(2+)-channel agonist Bay K 8644 (EC50; DM: 4.2 +/- 1.5 x 10(-10) mol/l, C: 1.7 +/- 0.8 x 10(-9) mol/l, p < 0.05) or the protein kinase C activator phorbol 12-myristate 13-acetate (PMA, EC50; DM: 6 +/- 2 x 10(-9) mol/l, C: 2 +/- 1 x 10(-8) mol/l, p < 0.05) were significantly greater in arterioles of DM compared to those of C rats.

CONCLUSION

The novel findings of our study are that in diabetes mellitus the myogenic response of rat skeletal muscle arterioles is enhanced, which seems to be independent from the impaired endothelial function present simultaneously, and likely due to the increased activity of voltage-dependent Ca2+ channels and/or upregulation of protein kinase C in arteriolar smooth muscle.

Enhanced release of prostaglandins contributes to flow-induced arteriolar dilation in eNOS knockout mice

Nitric oxide and prostaglandins were shown to contribute to the endothelial mediation of flow-induced dilation of skeletal muscle arterioles of rats. Thus, we hypothesized that flow-induced dilation and its mediation are altered in gracilis muscle arterioles of mice deficient in the gene for endothelial nitric oxide synthase (eNOS-KO) compared with control wild-type (WT) mice. Gracilis muscle arterioles ( approximately 80 micrometer) of male mice were isolated, then cannulated and pressurized in a vessel chamber. The increases in diameter elicited by increases in perfusate flow from 0 to 10 microq/min were similar in arterioles from eNOS-KO (n=28) and WT (n=22) mice ( approximately 20 micrometer at 10 microL/min flow). Removal of the endothelium eliminated flow-induced dilations in vessels of both strains of mice. N(omega)-nitro-L-arginine (L-NNA, 10(-4) mol/L) significantly inhibited flow-induced dilation in arterioles of WT mice by approximately 51% but had no effect on responses of arterioles from eNOS-KO mice. Indomethacin (INDO, 10(-5) mol/L) inhibited flow-induced dilation of WT mice by approximately 49%, whereas it completely abolished this response in arterioles of eNOS-KO mice. Simultaneous administration of INDO and L-NNA eliminated flow-induced responses in arterioles of WT mice. Dilations to carbaprostacyclin were similar at concentrations of 10(-8) and 3x10(-8) mol/L but decreased significantly at 10(-7) mol/L in arterioles of eNOS-KO compared with those of WT mice. These findings demonstrate that, despite the lack of nitric oxide mediation, flow-induced dilation is close to normal in arterioles of eNOS-KO mice because of an enhanced release of endothelial dilator prostaglandins and suggest that this vascular adaptation may contribute to the regulation of peripheral resistance in eNOS-KO mice.

Analysis of the peroxisomal acyl-CoA oxidase gene product from Pichia pastoris and determination of its targeting signal

Acyl-CoA oxidase (Pox1p) is involved in the beta-oxidation of fatty acids and is targeted to the peroxisomal matrix via the use of different signals in various organisms. In rat, mouse and human, Pox1p contains a canonical peroxisomal targeting signal 1 (PTS1), whereas in the yeasts Candida tropicalis, Saccharomyces cerevisiae, C. maltosa and Yarrowia lipolytica neither a PTS1 nor a PTS2 sequence is present, suggesting that Pox1p might be targeted to the peroxisomes via a third unknown pathway. Alternatively, since proteins lacking a PTS sequence can enter peroxisomes in association with other polypeptides containing a PTS, Pox1p might 'piggy-back' its way into the peroxisomal matrix together with other proteins. To understand the mechanism of peroxisomal targeting of a yeast Pox1p, we cloned the Pichia pastoris POX1 gene to study the pathway of import of PpPox1p into peroxisomes. The gene was cloned by PCR, hybridization and plasmid rescue. The 2157 bp gene encodes a protein with a predicted molecular weight of 80 kDa. Antisera against PpPox1p detected a protein specifically induced on oleate with an apparent molecular weight of 72 kDa. Immunolocalization studies confirmed the peroxisomal localization of PpPox1p. The carboxy-terminus of PpPox1p ends with a PTS1-like sequence, APKI. The sequence PKI was necessary for transport of PpPox1p into peroxisomes and interacted with the PTS1 receptor, Pex5p. Furthermore, addition of the sequence APKI to the C-terminus of the green fluorescent protein directed this fusion protein to the peroxisome. Therefore, PpPox1p uses the PTS1 pathway for its import into peroxisomes.

Dysfunction of nitric oxide mediation in isolated rat arterioles with methionine diet-induced hyperhomocysteinemia

In humans, increased plasma homocysteine (Hcy) has been shown to be correlated with occlusive arterial diseases and atherosclerosis. Studies of isolated conductance vessels of experimental animals suggest that Hcy may interfere with local vasoregulatory mechanisms, yet the effect of hyperhomocysteinemia (HHcy) on the function of microvessels, such as skeletal muscle arterioles, has not been investigated. Male Wistar rats were divided into 2 groups: control rats (C; plasma Hcy, 7.1+/-0.3 micromol/L; n=25), and rats made HHcy by 1 g/kg body weight daily intake of methionine in the drinking water for 4 weeks (plasma Hcy, 23.6+/-2.9 micromol/L; P<0.01 versus C; n=25). First-order arterioles ( approximately 130 micrometer in diameter) were isolated from gracilis muscle, cannulated, and pressurized (80 mm Hg, no-flow conditions). Changes in diameter were observed by videomicroscopy. Arteriolar constrictions to norepinephrine (NE; 3x10(-7) mol/L) were significantly (P<0.01) greater in HHcy compared with C rats (C, 37.7+/-4.9%; HHcy, 59.5+/-5. 2%). Removal of the endothelium (-E) augmented NE-induced constrictions only in arterioles from C rats, whereas it had no effect on responses of arterioles from HHcy rats (C-E, 55.9+/-6.9%; HHcy-E, 56.5+/-7.0%). Dilations to cumulative doses of acetylcholine (ACh; 10(-8) mol/L) were significantly reduced in arterioles from HHcy rats (C, 64.0+/-5.2%; HHcy, 24.1+/-6.8%). Inhibition of nitric oxide (NO) synthesis with N(omega)-nitro-L-arginine (L-NNA; 10(-4) mol/L) significantly decreased ACh-induced dilations of C arterioles, whereas it did not affect HHcy arterioles. Similar alterations were found in arteriolar dilations to histamine, another known NO-dependent agonist. Endothelium-independent dilations to the NO donor sodium nitroprusside were not different in arterioles from C and HHcy rats, either in the presence or absence of L-NNA. Presence of superoxide dismutase and catalase (scavenger of reactive oxygen metabolites) did not affect HHcy-induced alterations in the ACh response. We conclude that hyperhomocysteinemia reduces rat skeletal muscle arteriolar dilations in response to ACh and histamine, and enhances constrictions to NE, alterations that are likely to be caused by the reduced mediation of these responses by NO. The reduced activity of NO in arterioles may contribute to the microvascular impairment described in HHcy.

Pex19p interacts with Pex3p and Pex10p and is essential for peroxisome biogenesis in Pichia pastoris

We report the cloning and characterization of Pichia pastoris PEX19 by complementation of a peroxisome-deficient mutant strain. Import of peroxisomal targeting signal 1- and 2-containing peroxisomal matrix proteins is defective in pex19 mutants. PEX19 encodes a hydrophilic 299-amino acid protein with sequence similarity to Saccharomyces cerevisiae Pex19p and human and Chinese hamster PxF, all farnesylated proteins, as well as hypothetical proteins from Caenorhabditis elegans and Schizosaccharomyces pombe. The farnesylation consensus is conserved in PpPex19p but dispensable for function and appears unmodified under the conditions tested. Pex19p localizes predominantly to the cytosolic fraction. Biochemical and two-hybrid analyses confirmed that Pex19p interacts with Pex3p, as seen in S. cerevisiae, but unexpectedly also with Pex10p. Two-hybrid analysis demonstrated that the amino-terminal 42 amino acids of Pex19p interact with the carboxyl-terminal 335 amino acids of Pex3p. In addition, the extreme carboxyl terminus of Pex19p (67 amino acids) is required for interaction with the amino-terminal 380 amino acids of Pex10p. Biochemical and immunofluorescence microscopy analyses of pex19Delta cells identified the membrane protein Pex3p in peroxisome remnants that were not previously observed in S. cerevisiae. These small vesicular and tubular (early) remnants are morphologically distinct from other Pppex mutant (late) remnants, suggesting that Pex19p functions at an early stage of peroxisome biogenesis.

The TOR nutrient signalling pathway phosphorylates NPR1 and inhibits turnover of the tryptophan permease

The Saccharomyces cerevisiae targets of rapamycin, TOR1 and TOR2, signal activation of cell growth in response to nutrient availability. Loss of TOR or rapamycin treatment causes yeast cells to arrest growth in early G1 and to express several other physiological properties of starved (G0) cells. As part of this starvation response, high affinity amino acid permeases such as the tryptophan permease TAT2 are targeted to the vacuole and degraded. Here we show that the TOR signalling pathway phosphorylates the Ser/Thr kinase NPR1 and thereby inhibits the starvation-induced turnover of TAT2. Overexpression of NPR1 inhibits growth and induces the degradation of TAT2, whereas loss of NPR1 confers resistance to rapamycin and to FK506, an inhibitor of amino acid import. NPR1 is controlled by TOR and the type 2A phosphatase-associated protein TAP42. First, overexpression of NPR1 is toxic only when TOR function is reduced. Secondly, NPR1 is rapidly dephosphorylated in the absence of TOR. Thirdly, NPR1 dephosphorylation does not occur in a rapamycin-resistant tap42 mutant. Thus, the TOR nutrient signalling pathway also controls growth by inhibiting a stationary phase (G0) programme. The control of NPR1 by TOR is analogous to the control of p70 s6 kinase and 4E-BP1 by mTOR in mammalian cells.

Superoxide released to high intra-arteriolar pressure reduces nitric oxide-mediated shear stress- and agonist-induced dilations

It is thought that elevated levels of reactive oxygen metabolites contribute to the dysfunction of vascular endothelium in hypertension. We hypothesized that high intravascular pressure itself elicits production of superoxide, which then interferes with nitric oxide (NO)-mediated responses of arterioles. Thus, isolated arterioles (approximately 80 microm in diameter) from gracilis muscle of normotensive Wistar rats were cannulated and exposed to 140 mm Hg perfusion pressure for 30 minutes (in the absence of perfusate flow). After high intravascular pressure treatment, dilations to increases in perfusate flow (0 to 30 microL/min) were significantly reduced (from 39+/-2.2 to 19+/-2.1 microm at 30 microL/min), eliciting an increase in wall shear stress from approximately 20 to approximately 60 dyne/cm2. Nomega-nitro-L-arginine (10(-4) mol/L) did not affect, whereas indomethacin eliminated, flow-induced dilations after pressure treatment. In control, substance P (SP, 10(-9) to 5x10(-8) mol/L), sodium nitroprusside (SNP, 10(-8) to 10(-6) mol/L), and adenosine (ADO, 10(-6) to 5x10(-5) mol/L) elicited dilations (SP: 31.5+/-1.9 microm, SNP: 45.6+/-4 microm, and ADO: 37.2+/-4.1 microm, at maximum concentrations, respectively). After pressure treatment, maximum dilations to SP and SNP were significantly reduced (by 49% and 39%, respectively), whereas responses to ADO were not affected. Presence of superoxide dismutase (120 U/mL) and catalase (80 U/mL), but not catalase alone, in the perfusate solution prevented the reduction in dilation of arterioles to flow and agonists after pressure treatment by restoring NO mediation. We conclude that high intravascular pressure per se elicits the release of superoxide, which then interferes with NO, a mechanism that contributes to the elevation of wall shear stress and peripheral resistance in hypertension.

Gender difference in flow-induced dilation and regulation of shear stress: role of estrogen and nitric oxide

Previous studies show that agonist-induced, nitric oxide (NO)-mediated arteriolar dilations are greater in female than in male rats. Thus we hypothesized that flow-dependent arteriolar dilation, which is in part mediated by NO, is also greater in females than in males. Gracilis muscle arterioles from 12-wk-old female and male Wistar rats were isolated, cannulated, and pressurized. At 80 mmHg of perfusion pressure, the active diameter and passive diameter (PD) of arterioles of female and male rats were 58.3 +/- 3.4 and 53.2 +/- 2.6 micrometer as well as 103.6 +/- 4.0 and 115.3 +/- 4.8 micrometer, respectively. Dilations to step increases in perfusate flow from 0 to 25 microliter/min were significantly greater in arterioles of female rats and ovariectomized rats with estrogen replacement (OVE) than in male and ovariectomized female (OV) rats (98.6 +/- 0.6 and 97.4 +/- 1.1% vs. 72.6 +/- 3.3 and 72.5 +/- 3.6% of PD at 25 microliter/min). Calculation of wall shear stress (WSS) revealed that the maintained WSS was significantly lower in arterioles of female than in those of male rats (approximately 20 vs. approximately 35 dyn/cm2). After indomethacin pretreatment, Nomega-nitro-L-arginine methyl ester (L-NAME; 10(-4) M) eliminated flow-dependent dilation in arterioles of male and OV rats but only attenuated (by approximately 50%) the responses in arterioles of female and OVE rats. In vessels of these latter two groups of rats, the remaining flow-induced dilation was completely eliminated by administration of 10(-5) M Hb or 10(-3) M L-NAME. The greater flow/shear stress-induced dilation of arterioles of female rats indicates a gender difference in the regulation of WSS, which is likely to be due to the greater release of NO in female vessels requiring the chronic presence of estrogen. These findings suggest an important role for estrogen in the regulation of peripheral resistance in females.

The therapeutic potential of oral creatine supplementation in muscle disease

The decrease in intracellular creatine concentration observed in a number of muscle diseases may deplete energy homeostasis and may, therefore, be one of the factors determining and/or aggravating muscle weakness and degeneration. Two hypotheses are put forward in the present communication to explain: (i) the mechanisms leading to the disturbances in creatine metabolism found in various muscle diseases; and (ii) the potential of oral creatine supplementation in alleviating the clinical symptoms.

Flow-induced responses in skeletal muscle venules: modulation by nitric oxide and prostaglandins

Skeletal muscle arterioles dilate in response to increases in flow velocity/wall shear stress (WSS). The effect of flow/WSS on the diameter of skeletal muscle venules and the possible endothelial mediation of the response, however, have not yet been characterized. Thus changes in diameter of pressurized (10 mmHg) and norepinephrine-preconstricted venules (179 +/- 8 micron in diameter) to increases in perfusate flow before and after endothelium removal or application of inhibitors of NO and prostaglandin (PG) synthesis, Nomega-nitro-L-arginine (L-NNA, 10(4) M) and indomethacin (Indo, 2.8 x 10(5) M), respectively, were measured. Increases in perfusate flow [elicited by increases in the pressure difference (Pdiff) between proximal and distal cannulas] evoked with a delay of 17 +/- 2 s dilations, up to 36 +/- 9 micron at the highest flow, a response that was completely eliminated by removal/disruption of the venular endothelium. Calculation of WSS indicated that in endothelium-intact venules, the midpoint of the shear stress-diameter curve was at approximately 8 dyn/cm2, whereas in endothelium-denuded vessels, shear stress increased in a linear fashion with increases in flow, up to 40 dyn/cm2. L-NNA significantly reduced flow-induced dilations (from 38 +/- 11 to 17 +/- 9 micron at 14 mmHg Pdiff), whereas in the additional presence of Indo, flow elicited constriction of venules decreasing basal diameter (by 21 +/- 8 micron at Pdiff 12 mmHg). Thus in skeletal muscle venules an increase in shear stress due to increases in perfusate flow stimulates the release of endothelium-derived NO and PGs eliciting dilation, which in turn, regulates WSS, albeit at a lower value than what is observed in arterioles. In the absence of NO and PGs, flow-induced constriction is revealed, the cause of which remains obscure. From these data, we propose that shear stress-related responses of venules are involved in the regulation of venular resistance, especially during high flow conditions, such as reactive and exercise hyperemia.

Adaptation of flow-induced dilation of arterioles to daily exercise

We aimed to test the hypothesis that daily exercise elicits an adaptation of blood flow/shear stress-induced dilation of arterioles. To this end we investigated the responses of isolated, pressurized arterioles of mesentery (MES) and plantaris (PL) skeletal muscle of sedentary (SED) and exercised (EX) rats to increases in perfusate flow (PF, range 0-30 microl/min). Rats were run on a treadmill, once daily for 3 to 4 weeks (with gradually increasing intensity up to 40 min at 28 m/min; a total of 15-19 sessions on the treadmill). The passive diameters of arterioles (obtained in Ca2+-free solution) were similar ( approximately 140 microm) but the pressure-induced active diameter (at 80 mmHg) of skeletal muscle arterioles was significantly smaller than that of mesenteric arterioles. The basal diameter of MES arterioles of SED and EX rats was: 83.5 +/- 3.6 and 83.9 +/- 2.9 microm, respectively; increases in PF increased the diameter of SED and EX arterioles to a similar degree by 33.2 +/- 4. 7 and 31.9 +/- 6.1 microm, respectively). The diameters of PL muscle arterioles of SED and EX rats were 62.1 +/- 6.2 and 68.0 +/- 5.5 microm. In contrast to arterioles of MES, the highest PF increased the diameters of arterioles of PL muscle from EX rats to a significantly greater extent than those from SED rats (52.4 +/- 7.8 vs 30.3 +/- 3.9 microm). Thus, there is a functional adaptation to exercise activity in arterioles of skeletal muscle but not in those of arterioles of mesentery. We speculate that the intermittent increase in blood flow/shear stress in arterioles of skeletal muscle during the periods of exercise activity may be the underlying mechanism responsible for this adaptation.

Early assessment of exercise induced skeletal muscle injury using plasma fatty acid binding protein

OBJECTIVE

To test whether fatty acid binding protein (FABP) is a useful plasma marker for the early detection of exercise induced skeletal muscle injury in healthy subjects.

METHODS

Plasma concentrations of FABP and myoglobin (Mb) were measured in six healthy physical education teacher trainees after 20 minutes of downhill running (16% incline; mean lactate 4 mmol/l; 70% (VO2MAX). Creatine kinase (CK) was measured for comparison.

RESULTS

Significant increases were found in plasma FABP (mean peak level 50 micrograms/l), Mb (823 micrograms/l), and CK (491 U/l). Mb and FABP concentrations were already significantly elevated (p < 0.05) at 30 minutes, but CK not until two hours after exercise. Whereas Mb and FABP decreased to normal levels within 24 hours, CK activity remained elevated until 48 hours. The Mb to FABP ratio in plasma after exercise induced muscle injury was 15.0 (1.3) (mean (SEM)) (range 7.4-31.1), which is within the range of ratios calculated for skeletal muscle tissue contents of Mb and FABP, but different from the reported plasma ratio after myocardial injury (4-6).

CONCLUSIONS

After eccentric exercise induced muscle injury, plasma FABP and Mb increase and decrease more rapidly than CK, indicating that both FABP and Mb are more useful than CK for the early detection of such injuries and the monitoring of injury during repeated exercise bouts. In addition, the Mb to FABP ratio in the plasma identifies the type of muscle injured.

Peroxisome degradation by microautophagy in Pichia pastoris: identification of specific steps and morphological intermediates

We used the dye N-(3-triethylammoniumpropyl)-4-(p-diethylaminophenylhexatrienyl ) pyridinium dibromide (FM4-64) and a fusion protein, consisting of the green fluorescent protein appended to the peroxisomal targeting signal, Ser-Lys-Leu (SKL), to label the vacuolar membrane and the peroxisomal matrix, respectively, in living Pichia pastoris cells and followed by fluorescence microscopy the morphological and kinetic intermediates in the vacuolar degradation of peroxisomes by microautophagy and macroautophagy. Structures corresponding to the intermediates were also identified by electron microscopy. The kinetics of appearance and disappearance of these intermediates is consistent with a precursor-product relationship between intermediates, which form the basis of a model for microautophagy. Inhibitors affecting different steps of microautophagy did not impair peroxisome delivery to the vacuole via macroautophagy, although inhibition of vacuolar proteases affected the final vacuolar degradation of green fluorescent protein (S65T mutant version [GFP])-SKL via both autophagic pathways. P. pastoris mutants defective in peroxisome microautophagy (pag mutants) were isolated and characterized for the presence or absence of the intermediates. These mutants, comprising 6 complementation groups, support the model for microautophagy. Our studies indicate that the microautophagic degradation of peroxisomes proceeds via specific intermediates, whose generation and/or processing is controlled by PAG gene products, and shed light on the poorly understood phenomenon of peroxisome homeostasis.

Regulation of the vasomotor activity of lymph microvessels by nitric oxide and prostaglandins

It was shown previously that the presence of endothelium modulates spontaneous vasomotion of small lymphatic vessels. In the present study, we aimed to elucidate the nature of endothelium-derived factors, produced in basal conditions and in response to agonists, that affect the smooth muscle tone of lymph microvessels in vitro. Afferent lymph microvessels were isolated from rat iliac lymph nodes, cannulated with glass micropipettes, and pressurized (6 cmH2O), and changes in their diameter were investigated with video microscopy. In resting conditions, isolated lymph vessels exhibited spontaneous constrictions and dilations. The maximum and minimum diameters (Dmax and Dmin) were 149.8 +/- 2.9 and 85.8 +/- 3.6 microns, respectively. Acetylcholine (ACh, 10(-7) to 10(-5) M) and sodium nitroprusside (SNP, 10(-8) to 10(-6) M) temporarily abolished diameter oscillations, increasing the diameter of lymphatics dose dependently. For example, 10(-5) M ACh and 10(-6) M SNP increased the diameter (Dmax) by 15.2 +/- 2.2 and 25.0 +/- 2.7 microns, respectively. Treatment of vessels with NG-nitro-L-arginine (10(-4) M) significantly reduced the amplitude of diameter oscillations and nearly completely eliminated ACh-induced dilation of lymph microvessels, whereas SNP (10(-6) M) elicited a significantly greater dilation (55.6 +/- 7.5 microns). Arachidonic acid (AA, 10(-8) to 10(-6) M) constricted (up to 50 microns), whereas prostaglandin E2 (PGE2, 10(-9) to 10(-7) M) dilated (up to 40 microns), lymphatic vessels. Indomethacin (10(-5) M) increased both Dmax and Dmin and completely inhibited AA-induced constrictions, but did not affect PGE2-induced dilations of lymph microvessels. AA-induced constrictions of lymphatics were converted into dilations after treatment with SQ-29,548, a selective PGH2-thromboxane A2 (PGH2-TxA2, 10(-6) M) receptor antagonist, whereas PGE2-induced dilations were not affected. We conclude that endothelial nitric oxide and prostaglandins are important modulators of lymphatic vasomotion, hence pumping activity of lymph microvessels in vivo.

Effects of prolonged strenuous endurance exercise on plasma myosin heavy chain fragments and other muscular proteins. Cycling vs running

BACKGROUND

This study evaluates creatine kinase, myosin heavy chain, and cardiac troponin blood levels following three types of exercise: 1) short-distance uphill or downhill running; 2) alpine ultramarathon; and 3) alpine long-distance cycling.

METHODS

EXPERIMENTAL DESIGN

Comparative field study; follow-up up to 10 days.

SETTING

Department of Sports Medicine. All biochemical markers were analysed at the Department of Medical Chemistry and Biochemistry.

PATIENTS OR PARTICIPANTS

Subjects included healthy, trained males (N = 53). All subjects were nonsmokers and free from medication prior to and during the study. Each volunteer was an experienced runner or cyclist, who had at least once successfully finished the Swiss Alpine Marathon of Davos or the Otztal-Radmarathon before.

INTERVENTIONS

Running or cycling.

MEASURES

Plasma concentrations of creatine kinase, myosin heavy chain fragments and cardiac troponins were measured to diagnose skeletal and cardiac muscle damage, respectively.

RESULTS

Skeletal muscle protein release is markedly different between uphill and downhill running, with very little evidence for muscle damage in the uphill runners. There is considerable muscle protein leakage in the ultramarathoners (67 km distance; 30 km downhill running). In contrast, only modest amounts of skeletal muscle damage are found after alpine long-distance cycling (230 km distance).

CONCLUSIONS

This study proves that there is slow-twitch skeletal muscle fiber damage after prolonged strenuous endurance exercise and short-distance downhill running. Exhaustive endurance exercise involving downhill running and short-distance downhill running lead to more pronounced injury than strenuous endurance exercise involving concentric actions. From our results there is no reason for suggesting that prolonged intense exercise may induce myocardial injury in symptom-less athletes without cardiac deseases.

[Heterogeneity of seminal vesicle amyloid. Immunohistochemical detection of lactoferrin and amyloid of the prealbumin-transthyretin type]

Localized depositions of amyloid in the seminal vesicles may occur in elderly men. Earlier immunohistochemical studies have failed to identify immunoreactivity of known amyloid material. In this autopsy study, all seminal vesicles of males older than 50 years were histologically examined to determine incidence and phenotype of seminal vesicle amyloidosis. Seven out of 50 patients (14%) showed depositions of amyloid in the seminal vesicles. These amyloid depositions as well as one additional case were characterized histochemically, immunohistochemically and electronmicroscopically. All but two of these patients (75%) showed simultaneously amyloid depositions in the heart. Lactoferrin immunoreactivity was found in 6 patients (75%). Lactoferrin is an iron-binding, bacteriostatic glycoprotein, which is produced in the seminal vesicles. Four patients with lactoferrin positive amyloid in seminal vesicle showed different amyloid depositions in the heart (immunoglobulin light chain amyloid AL-lambda). Two cases (25%) showed the same amyloid type in heart and seminal vesicles (prealbumin-transthyretin type amyloid). Our study shows that most amyloidoses of the seminal vesicles are organ-limited depositions of lactoferrin. These forms of localized amyloidosis have to be separated from senile systemic amyloidosis with seminal vesicle involvement.

Shear stress-induced dilation of arterioles

The following is the abstract of the article discussed in the subsequent letter:

McGahren, Eugene D., Kim A. Dora, David N. Damon, and Brian R. Duling. A test of the role of flow-dependent dilation in arteriolar responses to occlusion. Am. J. Physiol. 272 ( Heart Circ. Physiol. 41): H714–H721, 1997.—At an arteriolar bifurcation, occlusion of one of the branch arterioles has been reported to result in an increase in flow, shear stress, and vasodilation in the opposite unoccluded branch. This dilator response in the unoccluded branch, often referred to as the “parallel occlusion response,” has been cited as evidence that flow-dependent dilation is a primary regulator of arteriolar diameter in the microcirculation. It has not been previously noted that, during this maneuver, flow through the feed arteriole would be expected to decrease and logically should cause that vessel to constrict. We tested this prediction in vivo by measuring red blood cell (RBC) velocity and diameter changes in response to arteriolar occlusion in the microcirculatory beds of three preparations: the hamster cheek pouch, the hamster cremaster, and the rat cremaster. In all preparations, a vasodilation was observed in the feed arteriole, despite a decrease in both flow and calculated wall shear stress through this vessel. Unexpectedly, we found that dilation occurred in the unoccluded branch arterioles even in those cases in which RBC velocity and shear stress did not increase in the unoccluded branch arterioles. All values returned to the baseline level after the removal of occlusion. The magnitude of the dilation of the feed and branch arterioles varied between species and tissues, but feed and branch arterioles within a given preparation always responded in a similar way to each other. We conclude from our experiments that mechanisms other than flow-dependent dilation are involved in the vasodilation observed in the microcirculation during occlusion of an arteriolar branch.

Estrogen preserves regulation of shear stress by nitric oxide in arterioles of female hypertensive rats

Previously we found that flow-induced arteriolar dilation in male spontaneously hypertensive rats (SHR) is significantly impaired, due to the absence of the nitric oxide (NO)-mediated portion of the response, resulting in an elevation of maintained wall shear stress. Since estrogen has been shown to affect NO-mediated responses, we hypothesized that in female SHR (fSHR) the NO-mediated portion of flow-induced responses is preserved. Gracilis muscle arterioles (approximately 45 to 55 microm) from 12-week-old fSHR, ovariectomized fSHR (OV fSHR), or ovariectomized and supplemented with estrogen fSHR (OVE fSHR) were isolated, cannulated, and pressurized at 80 mm Hg of perfusion pressure. Arteriolar dilations elicited by step increases in perfusate flow from 0 to 25 microL/min were significantly less (by approximately 30%) in OV fSHR compared with fSHR and OVE fSHR (delta19.4+/-1.5 versus 26.0+/-0.9 and 26.8+/-2.0 microm, respectively at maximum flow rate). Inhibition of prostaglandin synthesis with indomethacin elicited a approximately 50% reduction in flow-dependent dilation in all three groups of rats. N(omega)-nitro-L-arginine (L-NNA) significantly inhibited flow-induced responses in arterioles of fSHR and OVE fSHR (by approximately 50%) but not in those of OV fSHR. Constrictions to norepinephrine (10(-7)-3 x 10(-7) mol/L) were significantly greater (up to approximately 40%) in arterioles of OV fSHR compared with those of fSHR and OVE fSHR; these differences, however, were abolished in the presence of L-NNA. In conclusion, estrogen seems to preserve the NO-mediated portion of flow/shear stress-induced dilation in female hypertensive rats resulting in a lower maintained wall shear stress in female than in male SHR. The lower wall shear stress may contribute to the mechanisms by which estrogen lowers systemic blood pressure and the incidence of cardiovascular diseases in women.

Muscular adaptation and strength during the early phase of eccentric training: influence of the training frequency

We investigated the effects of different training frequencies on maximum isometric voluntary contraction (MVC) force and plasma concentrations of muscle proteins during the early phase of eccentric training. MVC and plasma concentrations of creatine kinase (CK) and slow-twitch skeletal (cardiac beta-type) myosin heavy chain (MHC) fragments were measured before and 4 and 7 d after performing the first and last training task. Training tasks, which comprised 70 high-force eccentric contractions involving the thigh muscles (single leg), were performed under supervision in three groups (A, B, C) at the beginning and at the end of the study period (7 wk). In addition, groups A (N = 10) and B (N = 10) trained during the study period starting 1 wk after the first training task. Group A performed one training task once a week for 5 wk and group B (N = 10) twice a week for 2 wk and three times a week during the subsequent 3 wk. In all three groups the first training task resulted in delayed CK and MHC peaks and decrements in MVC, which were comparable (P > 0.05). Only training regimen B resulted in a significant increase in the MVC. Compared with the first training task training regimens, A and B significantly (P < 0.01) reduced the increase in serum muscle protein and muscle function impairment. The responses to the last training task did not differ significantly between groups A and B. In group C the responses after the second training task did not differ significantly from those observed after the first task. Our results suggest that, compared with group A, additional eccentric exercise in group B is the essential basis for the increase in muscle strength during the early phase of eccentric training without further benefits for muscular adaptation. In group C we found no muscular adaptation.

Myogenic responses of isolated lymphatics: modulation by endothelium

OBJECTIVE

To characterize the effect of increases of intraluminal pressure on the spontaneous diameter oscillations of isolated lymphatics and on the maximum and minimum diameter, in the presence and absence of endothelium.

METHODS

Afferent lymphatics were isolated from rat iliac lymph nodes. After cannulation of both ends, lymphatics were equilibrated for 60 minutes at a pressure of 6 cm H2O, and then changes in diameter oscillations to increases in perfusion pressure (from 2-10 cm H2O, were measured. The endothelium was removed by intraluminal infusion of air. Changes in diameter were expressed as a percentage of the corresponding passive diameter obtained in Ca(2+)-free solution.

RESULTS

Isolated lymphatics showed phasic spontaneous constriction and dilation (approximately 50 to approximately 150 microns). Removal of extracellular Ca2+ abolished spontaneous diameter oscillations, and the passive diameter increased from 183.0 +/- 5.3 to 205.1 +/- 8.8 microns as pressure increased from 2 to 10 cm H2O. In response to increases in pressure, the normalized minimum diameter (Dmin) increased (from 30.1% +/- 1.1% to 54.8% +/- 1.9% while the normalized maximum diameter (Dmax) of lymphatics did not change. With increasing pressure the amplitude of vasomotion (Dmax-Dmin) decreased, whereas the oscillation frequency increased. Removal of endothelium significantly reduced Dmax; hence, the oscillation amplitude decreased while the frequency increased. Also, endothelium removal elicited a significant change in the slope of the pressure-Dmax curve (from 0.01 +/- 0.4 to -1.43 +/- 0.34).

CONCLUSIONS

Increases in intraluminal pressure greatly affect the spontaneous vasomotion of lymphatics and activate the myogenic mechanism intrinsic to the smooth muscle. In addition, endothelial factors are important to maintain adequate lymphatic vasomotion. These findings suggest that intraluminal pressure and endothelial factors can be important contributors to the tone and pumping activity of lymphatics in vivo.

Endothelin and prostaglandin H2 enhance arteriolar myogenic tone in hypertension

We hypothesized that endothelin in addition to prostaglandin (PG)H2 may also contribute to the enhanced myogenic tone of skeletal muscle arterioles of spontaneously hypertensive (SH) rats. Changes in the diameter of isolated, cannulated arterioles (approximately 60 microm) from cremaster muscles of 30-week-old normotensive Wistar Kyoto (WKY) and SH rats were measured as a function of perfusion pressure (20 to 140 mm Hg). Pressure-induced constrictions were significantly enhanced between 60 to 140 mm Hg in arterioles of SH rats compared with those of WKY rats; at 80 and 140 mm Hg the normalized diameter of arterioles (expressed as a percentage of corresponding passive diameter) of SH rats was 11.0% and 15.4% less (P<.05) than that of WKY rats. After inhibition of thromboxane A2-PGH2 receptors by SQ 29,548 (10[-6] mol/L), the still enhanced myogenic response of SH arterioles was eliminated by the removal of endothelium or the administration of BQ-123 (10[-7] mol/L), an endothelin A (ET-A) receptor blocker, which also inhibited constrictions to exogenous ET-1 (10[-11] to 5x10[-10] mol/L). ET-1 elicited comparable responses in arterioles of SH and WKY rats. Thus, in SH rats the enhanced arteriolar constriction to increases in intravascular pressure seems to be due to the production of endothelium-derived constrictor factors PGH2 and endothelin.

Skeletal troponin I as a marker of exercise-induced muscle damage

The utility of skeletal troponin I (sTnI) as a plasma marker of skeletal muscle damage after exercise was compared against creatine kinase (CK), myoglobin (Mb), and myosin heavy chain (MHC) fragments. These markers were serially measured in normal physical education teacher trainees after four different exercise regimens: 20 min of level or downhill (16% decline) running (intensity: 70% maximal O2 uptake), high-force eccentric contractions (70 repetitions), or high-force isokinetic concentric contractions of the quadriceps group (40 repetitions). Eccentrically biased exercise (downhill running and eccentric contractions) promoted greater increases in all parameters. The highest plasma concentration were found after downhill running (median peaks: 309 U/l CK concentration (-CK-)), 466 microgram/l Mb concentration (-Mb-), 1,021 microU/l MHC concentration (-MHC-), and 27.3 microgram/l sTnI concentration ([sTnI]). Level running produced a moderate response (median peaks: 178 U/l -CK-, 98 microgram/l -Mb-, 501 microU/l -MHC-, and 6.6 microgram/l [sTnI]), whereas the concentric contraction protocol did not elicit significant changes in any of the markers assayed. sTnI increased and peaked in parallel to CK and stayed elevated (>2.2 microgram/l) for at least 1-2 days after exercise. In contrast to MHC, sTnI is an initial, specific marker of exercise-induced muscle injury, which may be partly explained by their different intracellular compartmentation with essentially no (MHC <0.1%) or a small soluble pool (sTnI: median 3.4%).

Estrogen maintains nitric oxide synthesis in arterioles of female hypertensive rats

We hypothesized that in female spontaneously hypertensive rats (SHR), estrogen moderates the dysfunction of arterioles by preserving nitric oxide synthesis. To this end, we conducted experiments on isolated gracilis muscle arterioles (approximately 55 microns in diameter) of 12-week-old (SHR divided into four groups: females (fSHR), ovariectomized females (fSHR-OV), ovariectomized females with estrogen replacement (fSHR-OV+ES, 50 micrograms/kg SC 17 beta-estradiol benzoate every 48 hours), and males (mSHR). Arteriolar diameter in the presence of perfusion pressures of 60, 80, 100, and 120 mm Hg were obtained, and diameter changes were measured (at 80 mm Hg) in response to various concentrations of substance P (10(-9) to 5 x 10(-8) mol/L), sodium nitroprusside (10(-8) to 10(-6) mol/L), and A23187 (5 x 10(-8) to 10(-6) mol/L). The pressure-induced diameter of mSHR and fSHR-OV arterioles was significantly less (by approximately 10%) than that of fSHR and fSHR-OV+ES arterioles. N omega-nitro-L-arginine (10(-4) mol/L), a nitric oxide synthase inhibitor, elicited a significant decrease in basal arteriolar diameter of fSHR (by approximately 19%) and fSHR-OV+ES (by approximately 17%), thereby eliminating the differences in tone among the various groups. Dilations of fSHR and fSHR-OV+ES arterioles to substance P were significantly greater (by 140% at a concentration of 5 x 10(-8) mol/L) than those of mSHR and fSHR-OV arterioles, whereas dilations to sodium nitroprusside were not different among the groups. A23187 (a nitric oxide releaser) elicited dilations in arterioles of fSHR (5.9 +/- 1.5%, 13.0 +/- 1.8%, and 19.2 +/- 2.1%) and fSHR-OV+ES (4.3 +/- 1.0%, 10.3 +/- 2.4%, and 15.0 +/- 4.0%) but constrictions in those of mSHR (-7.5 +/- 1.6%, -25.3 +/- 39%, and -36.9 +/- 4.1%) and fSHR-OV (-2.6 +/- 1.7%, 7.4 +/- 3.3%, and -11.5 +/- 6.1%). We conclude that estrogen in fSHR is responsible for the preservation of nitric oxide synthesis in skeletal muscle arterioles, resulting in a greater modulation of pressure-induced myogenic tone than in mSHR and maintenance of nitric oxide-mediated dilations.

Release of nitric oxide and prostaglandin H2 to acetylcholine in skeletal muscle venules

The role of endothelium in regulating venular resistance is not well characterized. Thus we aimed to elucidate the endothelium-derived factors involved in the mediation of responses of rat gracilis muscle venules to acetylcholine (ACh) and other vasoactive agents. Changes in diameter of perfusion pressure (7.5 mmHg)- and norepinephrine (10(-6) M)-constricted venules (approximately 225 microns in diam) to cumulative doses of ACh (10(-9) to 10(-4) M) and sodium nitroprusside (SNP, 10(-9) to 10(-4) M), before and after endothelium removal or application of various inhibitors, were measured. Lower doses of ACh elicited dilations (up to 42.1 +/- 4.7%), whereas higher doses of ACh resulted in smaller dilations or even constrictions. Endothelium removal abolished both ACh-induced dilation and constriction. In the presence of indomethacin (2.8 x 10(-5) M), a cyclooxygenase blocker, or SQ-29548 (10(-6) M), a thromboxane A2-prostaglandin H2 (PGH2) receptor antagonist, higher doses of ACh caused further dilation (up to 72.7 +/- 7%) instead of constriction. Similarly, lower doses of arachidonic acid (10(-9) to 10(-6) M) elicited dilations that were diminished at higher doses. These reduced responses were, however, reversed to substantial dilation by SQ-29548. The nitric oxide (NO) synthase blocker, N omega-nitro-L-arginine (L-NNA, 10(-4) M), significantly reduced the dilation to ACh (from 30.6 +/- 5.5 to 5.4 +/- 1.4% at 10(-6) M ACh). In contrast, L-NNA did not affect dilation to SNP. Thus ACh elicits the release of both NO and PGH2 from the venular endothelium.

Gender difference in myogenic tone of rat arterioles is due to estrogen-induced, enhanced release of NO

The characteristics of arteriolar myogenic responses of female rats have not been investigated. Thus experiments were conducted on isolated gracilis muscle arterioles (approximately 55 microm diameter) of four groups of 12-wk-old rats: male rats, female rats, ovariectomized female rats with no estrogen replacement (OV), and ovariectomized female rats with estrogen replacement (OV + E2, 50 microg/kg s.c. injection of 17beta-estradiol benzoate every 48 h). Diameter changes in response to increases in perfusion pressure from 20 to 140 mmHg and to various concentrations of substance P (SP, 10(-9)-5 x 10(-8) M) and sodium nitroprusside (SNP, 10(-8)-10(-6) M) were measured before and after administration of N(omega)-nitro-L-arginine (L-NNA, 10(-4) M), an inhibitor of NO synthase. Arteriolar diameters of male and OV female rats were significantly less at 60-140 mmHg pressure than those of normal female and OV + E2 female rats (at 80 mmHg, 45.4 +/- 1.8 and 43.1 +/- 2.2 vs. 58.4 +/- 1.6 and 57.3 +/- 1.3%). L-NNA elicited a significantly greater downward shift of pressure-diameter curves in arterioles of normal female and OV + E2 female rats than in arterioles of male and OV female rats (28.6 +/- 4.6 and 30.6 +/- 4.7 vs. 13.2 +/- 0.9 and 10.4 +/- 2.6%). Dilations of arterioles from normal female and OV +/- E2 female rats to SP were significantly greater (by 50-60%) than those from male and OV female rats (20.8 +/- 1.8 and 22.3 +/- 1.9 vs. 13.8 +/- 1.4 and 13.8 +/- 0.6% at 10(-8) M). L-NNA did not affect dilations to SNP but significantly reduced the dilation of arterioles in all groups to SP, more so in arterioles of male and OV female rats than in arterioles of the other two groups. We conclude that pressure-induced myogenic constriction of arterioles of female rats is less pronounced than that of male rats; this is, most likely, due to the enhanced release and/or activity of NO related to the presence of estrogen.

[Arthroscopic replacement of the anterior cruciate ligament with a double semitendinosus tendon]

At the university hospital of emergency surgery in Innsburck and at the emergency services department of the hospital in Schwaz, anterior cruciate ligament reconstruction was performed in 467 patients between January 1992 and September 1993. In 117 cases, a double semitendinous tendon was used as an autograft. A total of 60 of these patients were followed up at an average of 20 months (13-33) after reconstruction. The results were rated according to the OAK and the Tegner scores. Objective measurements of instability were carried out by a KT 1000 arthrometer. In addition, 21 patients underwent computer-interfaced dynamometer testing using a Cybex 6000. Standardized loading of the thigh muscles was performed at angular velocities of 60 degrees/s (3 repetitions) and 240 degrees/s (30 repetitions): peak torques and total work were analyzed. The mean age was 23.5 years (17-55): 48 were male, 21 female. The main reasons for the ACL ruptures were sports injuries (51 cases). The patients were classified into three groups according to the data of the repair (group 1 reconstruction up to 1 week after trauma-28 patients: group 2: reconstruction between the 2nd and 6th week after trauma-15 patients: group 3: reconstruction 6 and more weeks after trauma-26 patients). In group 1. additional ruptures of the menisci. lesions of the MCL. and chondromalacia were seen in 71.4%. in group 2 in 73.3% and in group 3 in 80.8%. The average rating in the OAK score was 90.16 points: 38 patients (55.70%) had excellent results. 18(26.09%) were good. 9(13.04%) were fair and 4(5.80%) were poor. The Tegner activity score showed a reduction of 0.36 points on average. The largest amount of anterior translation was performed with the KT 1000 manual drawer test (2.29 mm on average compared with the contralateral side). Dynamometer testing showed a statistically significant difference in flexor and extensor mechanism (compared with the non-involved side) in both peak torques and total work. A repeat arthroscopy became necessary in five cases: arthrofibrosis in three and incipient joint infection in two cases.

Regional bivalent-univalent pairing versus trivalent pairing of a trisomic chromosome in Saccharomyces cerevisiae

In meiosis I, homologous chromosomes pair, recombine and segregate to opposite poles. These events and subsequent meiosis II ensure that each of the four meiotic products has one complete set of chromosomes. In this study, the meiotic pairing and segregation of a trisomic chromosome in a diploid (2n + 1) yeast strain was examined. We find that trivalent pairing and segregation is the favored arrangement. However, insertions near the centromere in one of the trisomic chromosomes leads to preferential pairing and segregation of the "like" centromeres of the remaining two chromosomes, suggesting that bivalent-univalent pairing and segregation is favored for this region.

Both nitric oxide and prostaglandin-mediated responses are impaired in skeletal muscle arterioles of hypertensive rats

OBJECTIVE

To investigate the role played by endothelium-derived dilator factors in the regulation of peripheral vascular resistance by determining whether the dysfunction of the endothelium contributes to the reduced dilator responsiveness of skeletal muscle arterioles in hypertension.

METHODS

The endothelial function of isolated, cannulated, pressurized (at 80 mmHg) gracilis muscle arterioles (45-50 microns diameter) of normotensive Wistar-Kyoto (WKY) rats and spontaneously hypertensive rats (SHR) was compared by utilizing vasoactive agents of known action.

RESULTS

Acetylcholine (ACh, 10(-9), 10(-8) and 5 x 10(-8) mol/l) and sodium nitroprusside (SNP, 10(-8), 10(-7) and 10(-6) mol/l) elicited similar dilations in arterioles of WKY rats and SHR. Substance P (10(-9), 10(-8) and 5 x 10(-8) mol/l) caused significantly less dilation (by approximately 70%) of SHR arterioles compared with WKY rat arterioles. The calcium ionophore A23187 (5 x 10(-8), 5 x 10(-7) and 10(-6) mol/l) elicited dilations in WKY rat arterioles (9.1 +/- 1.1, 24.0 +/- 1.5, and 39.0 +/- 3.4%, respectively), whereas it evoked constrictions (6.5 +/- 1.1, 14.9 +/- 1.5, and 25.5 +/- 1.6%, respectively) in SHR arterioles. Removal of endothelium, inhibition of prostaglandin synthesis (indomethacin) or blockade of prostaglandin H2 (PGH2) receptors (by SQ 29548) eliminated A23187-induced constrictions of SHR arterioles. The nitric oxide synthase blocker, NG-nitro-L-arginine elicited a significantly greater inhibition of substance P-induced dilations and a greater reduction in basal diameter of WKY rat arterioles than it did in those from SHR.

CONCLUSIONS

These data suggest that, in SHR arterioles, the synthesis and/or action of nitric oxide is, or are, impaired and the metabolism of arachidonic acid is altered, resulting in an enhanced production of PGH2. The simultaneous dysfunction of these two dilator pathways of arteriolar endothelium could contribute significantly to the enhanced peripheral resistance observed in hypertension.

Myogenic responses of isolated rat skeletal muscle venules: modulation by norepinephrine and endothelium

The pressure-induced myogenic response of large venules of skeletal muscle and its possible interactions with adrenergic receptor activation and endothelial factors have not yet been elucidated. Therefore, first-order venules of rat gracilis muscle were isolated, cannulated, and placed in an organ chamber. Changes in internal diameter of the vessels as a function of perfusion pressure (PP) were obtained. In response to increases in PP (0.5-17.5 mmHg), the diameter of venules increased from 197.1 +/- 23.96 to 369 +/- 14.1 microns. In passive conditions (in Ca(2+)-free solution), the pressure-diameter curve of venules shifted significantly upward. In the presence of norepinephrine (NE; 10(-6) M) in the bath solution, the pressure-diameter curve of active venules shifted significantly downward, and in the pressure-normalized diameter curve, a negative slope developed (-6.1 +/- 4.6). In both the absence and presence of NE, removal of endothelium significantly reduced venular diameters in the pressure ranges of 3-5 and 2-5 mmHg, respectively, but did not change significantly the characteristics of the pressure-diameter curves. These findings indicate that the smooth muscle of venules actively responds to changes in intraluminal pressure. This response is greatly facilitated by NE and modulated by the endothelium. The myogenic response of skeletal muscle venules, especially in the presence of NE, could have a role in the regulation of the resistance and capacitance of venules and, consequently, blood flow and tissue exchange in skeletal muscle.

Successful twin pregnancy in homozygous beta-thalassemia after ovulation induction with growth hormone and gonadotropins

OBJECTIVE

To describe infertility treatment and pregnancy outcome in a patient with transfusion-dependent beta-thalassemia major and hypopituitarism.

DESIGN

Case report.

SETTING

University-affiliated infertility clinic.

PATIENT

Twenty-four-year-old infertile patient with homozygous beta-thalassemia.

INTERVENTION

Co-treatment with GH and gonadotropins.

RESULTS

Ovulation induction with clomiphene citrate or gonadotropins alone was unsuccessful. Combined treatment with hMG, hCG, and recombinant human GH followed by intrauterine insemination resulted in a viable twin pregnancy.

CONCLUSION

Human GH as an adjunct to hMG and hCG seems to be a sensible approach in the treatment of infertile homozygous beta-thalassemic patients among which very few pregnancies are reported.