Interaction of neuropeptide Y and corticotropin-releasing factor signaling pathways in AR-5 amygdalar cells

Corticotropin-releasing factor (CRF) is a 41 amino acid neuropeptide which is involved in the stress response. CRF and neuropeptide Y (NPY) produce reciprocal effects on anxiety in the central nucleus of the amygdala. The molecular mechanisms of possible CRF-NPY interactions in regulating anxiety behavior is not known. In the central nervous system, the action of NPY leads to inhibition of cAMP production while CRF is known to stimulate levels of cAMP in the brain. Consequently, we hypothesized that NPY may antagonize anxiety-like behavior by counter-regulating CRF-stimulated cAMP accumulation and activation of the protein kinase A pathway. We have engineered an immortalized amygdalar cell line (AR-5 cells) which express via RT-PCR, the CRF(2alpha), Y(1) and Y(5) NPY receptor. In addition, in these cells CRF treatment results in significant concentration-dependent increases in cAMP production. Furthermore, incubation of 3 microM CRF with increasing concentrations of NPY was able to significantly inhibit the increases in cAMP compared to that observed with 3 microM CRF treatment alone. These findings suggest that CRF and NPY may counter-regulate each other in amygdalar neurons via reciprocal effects on the protein kinase A pathway.

Maintaining gut integrity during parenteral nutrition of tumor-bearing rats: effects of glucagon-like peptide 2

Maintaining tumor-bearing rats on total parenteral nutrition (TPN) for eight days significantly reduced mass, protein, and DNA in small intestine and colon. Coinfusion of glucagon-like peptide 2 (GLP-2) significantly increased each of these variables in the duodenum, jejunum, and ileum, but not in the colon. Histological analysis of tissue revealed normal mucosa thickness and villus height in the small intestine of GLP-2-treated rats, whereas non-treated rats maintained on TPN exhibited villus shortening and thinning of the mucosa. Compared with TPN alone, no significant effects of GLP-2 were noted on tumor growth, liver weight, or heart weight. Coinfusion of GLP-2 with TPN had no significant effect on TPN-associated immunosuppression, as measured by mitogen-induced proliferation of cultured splenocytes. Although translocation of bacteria to the mesenteric lymph nodes appeared to be reduced in GLP-2-treated rats, the difference between groups was not statistically significant. These results suggest that hormonal alterations may be more important than an absence of luminal nutrition in TPN-associated mucosa changes in tumor-bearing rats. Additionally, maintenance of gut integrity during TPN does not appear to be a sufficient condition for the avoidance of the negative sequelae associated with this route of supplemental nutrition.

Food intake inhibition and reduction in body weight gain in rats treated with GI264879A, a non-selective NPY-Y1 receptor antagonist

Neuropeptide Y has been proposed to play a major role in the hypothalamic regulation of feeding behavior through the activation of specific, central NPY receptor(s). In an effort to design small molecule antagonists of NPY receptors, we have synthesized a series of substituted dipeptides based on defined pharmacophores, previously identified by us and others as essential for the interaction with the peptide receptors. GI264879A behaves as a functional antagonist of Y1 receptors while displaying no binding selectivity for the different NPY receptor subtypes. We demonstrate here that administration of GI264879A to rats causes a significant decrease in food intake and body weight partly through a mechanism dependent on the integrity of the vagus nerve.

Glucagon-like peptide-2 stimulates gut mucosal growth and immune response in burned rats

Major burn trauma often leads to reduced gut barrier function, immunosuppression, and increased bacterial translocation. We hypothesized that treatments that maintain normal gut after burn trauma will also reduce immunosuppression and bacterial translocation. Recent studies suggest that treatment with glucagon-like peptide-2 (GLP-2), which is synthesized in the intestine and released after food intake, elicits mucosal hyperplasia in the small intestine of rodents and prevents parenteral nutrition-induced gut hypoplasia. Therefore, we determined whether GLP-2 would prevent loss of gut integrity after major burn trauma. Osmotic minipumps were implanted into the peritoneum of 22 adult, male, Sprague-Dawley rats to infuse saline (10 microl/hr; n = 14) or GLP-2 (1 microg/hr; n = 8). On the next day 8 saline-infused and 8 GLP-2-infused rats were subjected to a 25 sec duration 30% BSA open flame burn, with the remaining rats serving as sham-burn controls. Five days after burn, all rats were killed. Gut protein was assessed, and immunosuppression was estimated by the mitogenic response of cultured splenocytes to phytohemagglutinin, pokeweed, and concanavalin A. Bacterial translocation was determined by culturing the mesenteric lymph nodes. Although protein content was significantly decreased in the ileum of burned rats treated with saline, the burned rats treated with GLP-2 exhibited significant increases in protein levels in duodenum, jejunum. and ileum. Colon protein was not affected by GLP-2 infusion. Saline-treated burned rats also exhibited immunosuppression, as suggested by significantly decreased responses to each of the mitogens. Infusion of GLP-2 normalized the response by the burned rats to each of the mitogens. Lymph nodes taken from sham rats exhibited no colony forming units, whereas in both of the burn groups, 50% of the cultures were positive. However, more aggressive colonization may have occurred in the saline-infused burned rats as compared with the GLP-2-infused burned rats (81 +/- 63 vs 3 +/- 2 colony forming units). These results suggest that GLP-2 may stimulate gut mucosa and reduce immunosuppression in burned rats. However, there does not seem to be a statistically significant positive effect of GLP-2 on bacterial translocation. Thus, improving small intestine mucosa may increase immunity while being ineffective against bacterial translocation.

Structure-activity studies including a Psi(CH(2)-NH) scan of peptide YY (PYY) active site, PYY(22-36), for interaction with rat intestinal PYY receptors: development of analogues with potent in vivo activity in the intestine

Peptide YY (PYY) is a gut hormone that inhibits secretion and promotes absorption and growth in the intestinal epithelium. We have performed structure-activity studies with the active site, N-alpha-Ac-PYY(22-36)-NH(2), for interaction with intestinal PYY receptors. Investigation of aromatic substitutions at position 27 resulted in analogues that exhibited potent in vitro antisecretory potencies with N-alpha-Ac-[Trp(27)]PYY(22-36)-NH(2) exhibiting even greater potency than intact PYY. In vivo studies in dogs revealed that this analogue also promoted intestinal absorption of water and electrolytes during continuous intravenous and intraluminal infusion. Investigations carried out to identify features that would enhance stability revealed that incorporation of Trp(30) increased affinity for PYY receptors. A "CH(2)-NH" scan revealed that incorporation of reduced bonds at position 28-29 or 35-36 imparted greater receptor affinity. In general, disubstituted analogues designed based on the results of single substitutions exhibited good receptor affinity with N-alpha-Ac-[Trp(27),CH(2)-NH(35-36)]PYY(22-36)-NH(2) having the greatest affinity (IC(50) = 0.28 nM). Conservative multiple substitutions with Nle-->Leu and Nva-->Val also imparted good affinity. An analogue designed to encompass most of the favored substitutions, N-alpha-Ac-[Nle(24,28),Trp(30),Nva(31), CH(2)-NH(35-36)]PYY(22-36)-NH(2), exhibited a proabsorptive effect in dogs comparable to, but longer lasting than, that of intact hormone. Selected analogues also exhibited good antisecretory potencies in rats with N-alpha-Ac-[Trp(30)]PYY(22-36)-NH(2) being even more potent than PYY. However, the potencies did not correlate well with the PYY receptor affinity or the proabsorptive potencies in dogs. These differences could be due to species effects and/or the involvement of multiple receptors and neuronal elements in controlling the in vivo activity of PYY compounds. PYY(22-36) analogues exhibited good affinity for neuronal Y2 receptors but poor affinity for Y1 receptors. Also, crucial analogues in this series hardly bound to Y4 and Y5 receptors. In summary, we have developed PYY(22-36) analogues which, via interacting with intestinal PYY receptors, promoted potent and long-lasting proabsorptive and antisecretory effects in in vivo models. These compounds or analogues based on them may have useful clinical application in treating malabsorptive disorders observed under a variety of conditions.

Antagonism of NPY-induced feeding by pretreatment with cyclic AMP response element binding protein antisense oligonucleotide

Although second messenger systems subserving neuropeptide Y (NPY)-mediated behaviors have been identified for a variety of receptors in several tissues, downstream signaling events are not well known. The nuclear binding protein, cyclic AMP response element binding protein (CREB) appears to be a transcription factor that is activated following injection of NPY into rat hypothalamus. To allow determination of the functional nature of CREB mediation of NPY-induced feeding, injection cannulae were implanted into the perifornical hypothalamus of 18 rats. Treatment of seven rats with CREB antisense oligonucleotide (15 ug) significantly antagonized NPY feeding for up to one week after treatment, while similar injections of CREB sense oligonucleotide (15 ug) had no significant effect on NPY-induced feeding. Two weeks after the antisense oligonucleotide treatment, feeding was once again elicited by the injection of NPY. Hypothalamic CREB protein was also reduced significantly two days after the CREB antisense oligonucleotide treatment. These results suggest that activation of CREB, probably through phosphorylation, may be a necessary event for the signal transduction of NPY stimulation into feeding behavior.

NPY messenger RNA is increased in medial hypothalamus of anorectic tumor-bearing rats

Previous investigations suggest that neuropeptide Y (NPY) feeding mechanisms and corticotropin releasing factor (CRF) are altered in anorectic tumor-bearing (TB) rats. To better determine the relationship of NPY and CRF synthesis to cancer anorexia we measured mRNA for these peptides in medial and lateral hypothalamus of TB and control rats. NPY and CRF mRNA were reliably detected by Northern blot analysis only in medial hypothalamus, where NPY message was elevated significantly in TB rats. CRF mRNA tended to be reduced in both pair-fed (PF) and TB rats, but did not reach statistical significance. Concentrations of NPY or CRF were not altered significantly in either the lateral or medial hypothalamus of TB or PF rats. These results suggest that the transcription of NPY is elevated in PF rats and is increased further in anorectic TB rats. The lack of significant increases in levels of peptides may be related to dilution, due to measuring a relatively large block of hypothalamic tissue. Alternatively, translation of the signal for NPY production may be inhibited, or degradation of peptide levels may be increased.

WRYamide, a NPY-based tripeptide that antagonizes feeding in rats

Modifications of (D-Trp32) neuropeptide Y (NPY) led to the development of potential peptide-based lower molecular weight (500-800 Da) NPY feeding antagonists. One compound, WRYamide (N-Ac-Trp-Arg-Tyr-NH2), blocked NPY-induced feeding for 1 to 4 h when injected intrahypothalamically (i.h.t.) at 1 to 40 microgram. Schedule-induced feeding was also antagonized for up to 24 h by 20 microgram of WRYamide, i.h.t. Injection of 2.5 mg/kg (1 mg/rat) of WRYamide, i.v., also reduced significantly schedule-induced feeding for 4 h. A conditioned taste aversion could not be classically conditioned to saccharin using WRYamide as the unconditioned stimulus. These results may lead to the development of systemically active anti-obesity drugs.

Reciprocal changes in hypothalamic receptor binding and circulating leptin in anorectic tumor-bearing rats

Although reduced biological activity of the obese gene product, leptin, has been associated with obesity, little information is available concerning leptin alterations during anorexia. Therefore, we measured circulating leptin concentrations and hypothalamic leptin binding in anorectic tumor-bearing and pair-fed control rats. Plasma concentrations of leptin decreased in tumor-bearing rats early in the course of tumor growth, and fell to nearly non-detectable levels during severe anorexia. The pair-fed control rats that ate the same amount of food as did the anorectic tumor-bearing rats exhibited a 50% decrease in plasma leptin concentration. Concentrations of free fatty acids were elevated in both tumor-bearing and pair-fed groups, while circulating levels of triglycerides were increased only in anorectic tumor-bearing rats. Leptin receptor density was doubled in the hypothalamus of tumor bearing rats, while binding affinity was decreased by 50%. These results suggest that peripheral leptin production is down-regulated, perhaps due to increased lipolysis in tumor-bearing rats. It appears that hypothalamic leptin systems up-regulate receptor numbers in response to decreased blood leptin level, however, the decrease in binding affinity may compensate for these alterations. Therefore, the influence of leptin on hypothalamic neuropeptide Y feeding systems may be minimal in anorectic tumor-bearing rats.

Reduction of gut hypoplasia and cachexia in tumor-bearing rats maintained on total parenteral nutrition and treated with peptide YY and clenbuterol

Prevention of gut hypoplasia associated with total parenteral nutrition (TPN) was investigated in 67 adult male Fisher 344 rats. Mass and protein content of the small intestine was reduced by 31% and 39%, respectively, after 7 d of TPN in tumor-bearing (TB) rats. Coinfusing peptide YY (PYY; 1 nmol.kg-1.h-1) and treating the rats with the anabolic beta-adrenergic agonist, clenbuterol (CLE; 2 mg.kg-1.d-1), resulted in significant savings in small intestine weight (26% increase) and protein (42% increase). Although the colon also exhibited a significant decrease in mass (31%), none of the treatment combinations were effective in this region of the gut. Histologic analysis of ileum suggested that the additive effects of PYY and CLE were due to differential effects of these compounds on mucosal and muscular tissues, respectively. This combination of treatments also resulted in significant savings (30% increase) in gastrocnemius protein, suggesting a reduction in the cachectic response. These results suggest that TPN-induced gut hypoplasia and cancer cachexia may be reduced by the proper combination of nutritional, hormonal, and pharmacologic treatments. In addition, the anabolic effects of various treatments may be additive to counteract TPN-induced gut atrophy.

Prevention of parenteral nutrition-induced gut hypoplasia by coinfusion of glucagon-like peptide-2

Maintaining rats on total parenteral nutrition (TPN) for 6 days significantly reduced mass (-34%), protein (-32%), and DNA (-35%) in small intestine and colon (29-37% decrease). Coinfusion of glucagon-like peptide-2 (GLP-2) normalized each of these variables in duodenum, jejunum, and ileum, but not in colon. Histological analysis of tissue revealed normal mucosa thickness and villus height in small intestine of GLP-2-treated rats, whereas nontreated rats maintained on TPN exhibited villus shortening (-30%) and thinning (-23%) of mucosa. These results suggest that hormonal alterations may be more important than an absence of luminal nutrition in TPN-associated mucosal changes. Additionally, GLP-2 normalization of gut mucosa permits accurate assessment of the influence of reversal of hypoplasia on gut barrier function.

Hemodynamic and clinical effects of oral levodopa in children with congestive heart failure

OBJECTIVES

This study was undertaken to evaluate the safety, efficacy and pharmacodynamic variables of oral levodopa in pediatric patients with congestive heart failure refractory to standard therapy.

BACKGROUND

Therapeutic options for children with congestive cardiomyopathies are limited to digoxin, diuretic agents and angiotensin-converting enzyme inhibitors. Previous work in adults with congestive heart failure has shown a short-term effectiveness of levodopa and improvement of cardiac function.

METHODS

Baseline two-dimensional and M-mode echocardiography, surface electrocardiography, Holter monitoring and exercise testing, when applicable, were performed. Levodopa was administered in a dose escalation scale from 8 mg/kg body weight per dose to 20 mg/kg per dose over 3 days with concomitant metoclopramide and pyridoxine. Catecholamine levels at initiation of the trial and throughout dose escalation were measured, with echocardiographic and electrocardiographic correlation. After 24-h drug washout, cardiac catheterization was performed both before and after administration of levodopa.

RESULTS

Between February 1992 and December 1995, nine children (age 10 +/- 1.7 years, weight 27.8 +/- 4.3 kg) were enrolled in this study. At cardiac catheterization, serum dopamine levels rose from 108.5 +/- 59.2 pg/ml to 1,375.8 +/- 567.9 pg/ml (p = 0.03) at 100 +/- 14.8 min after levodopa administration without a significant change in serum norepinephrine or epinephrine levels. Paralleling these increases, there were significant changes in the cardiac index (1.7 +/- 0.3 to 3.2 +/- 0.7 liters/min per m2), stroke volume index (16.1 +/- 3.2 to 31.2 +/- 7.0 ml/m2 per min), oxygen consumption (138.6 +/- 24.4 to 188.3 +/- 30.8 ml/min per m2) and systemic vascular resistance (36.8 +/- 8 to 21.9 +/- 5.5 indexed Wood's units; all p < 0.01). There was a significant reversal of the daily fluid volume output/input ratio from 0.8 +/- 0.1 to 1.2 +/- 0.1 (p < 0.01). Levodopa administration was complicated by hypertension or tachycardia, or both, requiring a dose reduction in three patients, and by significant gastrointestinal distress in one. There was sustained symptomatic improvement a median of 19.5 months after drug initiation in seven of the patients.

CONCLUSIONS

These preliminary data support the hemodynamic value of oral levodopa in the treatment of severe congestive heart failure in children.

Induction of endotoxin tolerance in rat bone marrow cells by in vivo infusion of tumor necrosis factor

OBJECTIVE

To determine in a rat model whether a low-dose infusion of tumor necrosis factor (TNF) affects the production of the inflammatory cytokines TNF and interleukin (IL)-6, the immunosuppressive factor prostaglandin E2 (PGE2), and complement component C3 (C3) by isolated bone marrow-adherent and -nonadherent cells, cultured in the presence of lipopolysaccharide, a component of bacterial endotoxin.

DESIGN

Randomized, controlled animal study.

SETTING

Research laboratory of a university medical center.

SUBJECTS

Sprague-Dawley rats (n = 18), 250 to 275 g.

INTERVENTIONS

Animals received a continuous infusion of one of the following three treatments for 4 days: a) TNF in saline containing bovine serum albumin; b) saline containing bovine serum albumin; and c) saline alone.

MEASUREMENTS AND MAIN RESULTS

After infusion, isolated bone marrow cells were cultured for 1 day and 3 days, with and without lipopolysaccharide (1 microgram/mL); culture supernatants were assayed for TNF, IL-6, PGE2, and C3. TNF infusion caused a decrease in the in vitro production of TNF, IL-6, and PGE2 by the lipopolysaccharide-stimulated adherent and nonadherent bone marrow cells. This tolerance to lipopolysaccharide stimulation was present after both 1 day and 3 days of culture. TNF infusion caused an increase in C3 production by the nonadherent cells. The production of TNF by adherent cells from saline-infused or bovine serum albumin-infused animals (controls) was greater in 3-day cultures compared with 1-day cultures, whereas the production of IL-6 and PGE2 was less.

CONCLUSIONS

These results indicate that TNF infusion caused cells in the bone marrow to be tolerant to lipopolysaccharide stimulation or that TNF infusion programmed the cells to become tolerant to lipopolysaccharide stimulation on differentiation and/or maturation. The results also indicate that bone marrow cells may be regulated by TNF (probably indirectly) at different phases of maturation and/or differentiation with respect to the production of different mediators. Although TNF is considered to be an inflammatory cytokine, at low concentrations it may be an important down-regulator of the inflammatory response.

Neuropeptide Y treatment and food deprivation increase cyclic AMP response element-binding in rat hypothalamus

Intrahypothalamic (IHT) administration of neuropeptide Y (NPY) induces a robust feeding response in rats. We have shown previously that NPY-induced feeding is mediated by a pertussis-toxin-sensitive G protein in rats. NPY receptors are coupled to cAMP and Ca2+. Because these second messengers are known to activate cAMP response element binding proteins, (CREB), cAMP response element modulators, or activating transcription factor 1, we investigated the involvement of these transcription factors in NPY-induced feeding in rats. Compared with control injections of cerebrospinal fluid (1 microl), IHT administration of NPY increased cAMP response element (CRE) binding to rat hypothalamic nuclear extracts in a time-dependent manner, as detected by an electrophoretic mobility shift assay. In contrast, IHT administration of the anorectic neuropeptide, pituitary adenylate cyclase activating polypeptide, strongly inhibited the CRE binding. Food deprivation for 48 hr also increased CRE binding, whereas 8 hr of refeeding normalized CRE activity. Preincubation of the hypothalamic nuclear extracts of NPY-treated and unfed rats with antibody specific to CREB blocked CRE binding, whereas preincubation with phosphoCREB antibody retarded the migration of CRE-protein complex, indicating that phosphoCREB is involved in this process. Consistently, immunohistochemical studies with food-deprived rats showed an intense phosphoCREB signal in the paraventricular nuclei and ventromedial hypothalamus in comparison to rats fed ad libitum. Hypothalamic calcium/calmodulin-dependent protein kinase II activity was also increased by IHT-NPY. These results suggest that calcium/calmodulin-dependent protein kinase II induced phosphorylation of CREB may be involved in regulating feeding behavior induced by NPY.

Preservation of intestine protein by peptide YY during total parenteral nutrition

Maintaining rats on TPN for 7 days was associated with a 50% reduction in gut mass and protein content. Co-infusing PYY with total parenteral nutrition (TPN) resulted in significant savings in jejunal wet mass and elevated protein content of jejunum, ileum and colon as compared with rats maintained on TPN alone. No significant effects of PYY on plasma amino acid profile were noted. Although minor alterations in mucosal polyamines were observed in rats maintained on TPN, co-infusion of PYY had no significant effect on gut polyamine concentrations. These results suggest that PYY has trophic effects upon the gut during otherwise catabolic conditions. Therefore, co-infusion of PYY with TPN may suggest methods whereby loss of intestinal mucosa and atrophy-associated complications of TPN may be modulated.

Assessment of feeding response of tumor-bearing rats to hypothalamic injection and infusion of neuropeptide Y

Tumor-bearing rats exhibited significant decreases in 1- to 4-h intake of rat chow following the intrahypothalamic injection of 2 micrograms neuropeptide Y (NPY). This refractory feeding response was present prior to the onset of anorexia and became more severe as anorexia worsened. The constant infusion of NPY (125 ng/h) into the perifornical hypothalamus of TB and control rats elicited increased feeding for only 2 days. Because chromatography revealed minipump NPY to be intact after 10 infusion days, downregulation of NPY receptors may have occurred. Daily injection of increasing doses of NPY stimulated ad lib feeding in non-TB rats, while having no effect on TB rats. Desensitization to NPY-induced feeding following daily injections of the peptide was suggested by the loss of feeding response to a dose (500 ng) of NPY that increased food intake prior to the daily NPY treatments. These results suggest that hypothalamic NPY feeding systems are refractory in TB rats, even before they exhibit anorexia. In addition, a rapid loss of the feeding response occurred in rats with constant infusion of NPY into hypothalamic tissue or with daily intrahypothalamic injections of the peptide, suggesting possible NPY receptor-mediated alterations. Therefore, control of obesity or anorexia through NPY feeding mechanisms may prove difficult due to rapid compensatory receptor changes.

Immunostimulation following fish oil-based parenteral nutrition in tumor-bearing rats

Tumor-bearing (TB) and control rats were maintained for four to seven days on total parenteral nutrition (TPN) in which the lipid component (11.1% of total calories) was Intralipid or fish oil. Although no TB rats maintained on standard Intralipid-based TPN died prematurely in these experiments, one-third of the TB rats maintained on fish oil-based TPN died of bleeding complications by Day 4 of TPN infusion. The bleeding appeared to be due to the particle size in the fish oil emulsion, because a subsequent study employing a better emulsified TPN with smaller lipid particles exhibited fewer bleeding problems. Tumor growth, skeletal muscle atrophy, and gut hypoplasia were not reduced in the TB group maintained on fish oil-based TPN. However, immunosuppression observed in the Intralipid-based TPN group, as measured by mitogen response of cultured splenocytes, was significantly improved in the rats maintained on fish oil-based TPN. Levels of eicosapentaenoic acid were reduced in all rats receiving TPN. Although the hypothesized antitumor and anticachexia effects of fish oil administration were not realized, significant improvement in immunosuppression was noted. These results suggest that intravenously administered fish oil may have potential positive effects for the host.

Effects of electromagnetic fields and gender on neurotransmitters and amino acids in rats

Epidemiological studies have linked electromagnetic field (EMF) exposure to certain forms of cancer, however only limited laboratory evidence supports a connection between EMF and biological effects. In the present study we exposed male and female rats to low level, 1000 milli-Gauss (mGs), direct current EMF generated with Helmholtz coils for 1 mo or 4 mo. The effects of these EMF exposures on regional brain neurotransmitter metabolism and circulating amino acid concentrations were determined. After 1 mo of EMF exposure the concentration of serotonin was elevated in the hypothalamus of male rats. Levels of the dopamine metabolite, 3-methoxytyramine, were increased in the corpus striatum of male and female rats that were exposed to EMF for 1 mo. Hypothalamic concentration of norepinephrine was elevated in both groups of male rats, as compared to respective female groups, but was not affected by EMF. Similarly, levels of tyrosine were increased in hypothalamus, corpus striatum and nucleus accumbens of male rats, but were not affected by EMF exposure. Following 4 mo of EMF exposure, no significant effect of EMF was observed. Significant sex differences in plasma amino acid concentrations were observed in both studies, with female rats exhibiting decreases in a majority of the amino acids measured. These results are suggestive that short-term exposure may cause small alterations in neurotransmitter metabolism and in circulating amino acids, which dissipate when exposure duration is increased.

Refractory hypothalamic adenylate cyclase in anorectic tumor-bearing rats: implications for NPY-induced feeding

Although isoproterenol stimulated adenylate cyclase activity in hypothalamic membranes taken from freely-feeding, food-restricted or nonanorectic tumor-bearing rats, the response was greatly reduced in anorectic tumor-bearing rats. The addition of NPY to the membrane preparation inhibited adenylate cyclase activity in hypothalamus taken from freely-feeding and food-restricted rats, but NPY-inhibitory activity was significantly reduced in both groups of tumor-bearing rats. These results suggest that cyclic AMP formation is refractory in anorectic tumor-bearing rats, and that NPY-induced inhibition of hypothalamic adenylate cyclase is reduced in tumor-bearing rats prior to the onset of significant anorexia. Therefore, NPY-induced feeding may be reduced in tumor-bearing organisms due to a dysfunction in the cyclic AMP second messenger system.

Anticatabolic effect of the beta 2-agonist cimaterol in vivo in tumor-bearing animals

Loss of lean body mass occurs in cancer and may adversely affect outcome. The beta 2-agonist cimaterol increases muscle mass and protein content in tumor-bearing animals, in part by decreasing protein degradation, but the effect of the drug on protein synthesis remains uncertain. To determine the influence of cimaterol on protein synthesis, a methylcholanthrene sarcoma was transplanted sc into the dorsum of male Fischer-344 rats. After 3 weeks of tumor growth, tumor-bearing and control animals received daily sc injections of the beta 2-agonist cimaterol (0.15 mg/kg) for 5 days. Rate of protein synthesis was measured using iv [3H]-phenylalanine (25 microCi/100 g body wt) and cold phenylalanine (150 mumole/100 g body wt) in a flooding dose. Extensor digitorum longus muscles were harvested 10 min later, homogenized, and assayed for [3H]-phenylalanine uptake (bound) (dpm/mg muscle) and tissue-specific (free) radioactivity to determine protein synthesis rate (Ks: %/24 hr). There was a significant increase in protein synthesis rate in control and tumor-bearing animals receiving cimaterol compared to that in freely feeding, food-deprived, or matched-carcass-weight nontumor-bearing controls, as well as compared to that in tumor-bearing controls. We conclude that the anabolic effects of cimaterol are due to both decreased protein degradation and increased muscle protein synthesis. Therefore, beta 2-agonists may prove useful in prevention and/or treatment of cancer cachexia.

Neuropeptide Y and the development of cancer anorexia

OBJECTIVE

The authors determined whether radioligand binding of neuropeptide Y (NPY) to hypothalamus taken from nonanorectic and anorectic tumor-bearing rats was altered as compared with similar tissue taken from freely-feeding and food-restricted control rats.

SUMMARY BACKGROUND DATA

Previous results indicate that tumor-bearing rats exhibit a refractory feeding response to NPY, the most potent feeding stimulus known. Additional studies indicate that the concentration of NPY in the hypothalamus of anorectic tumor-bearing rats is decreased as compared with freely-feeding or food-restricted control rats.

METHODS

Because these observations of decreased response to exogenous peptide in the presence of decreased endogenous levels suggest an alteration in hypothalamic NPY receptors, this study investigated binding of 125I-NPY to hypothalamic membranes of tumor-bearing and control rats.

RESULTS

Determinations of receptor affinity for NPY (half maximal concentration for displacement) indicated a 20-fold decrease in affinity with the development of anorexia, which changed to an 80-fold decrease during severe anorexia. Receptor density, as indicated by specific binding, exhibited only a 30% decrease, even during severe anorexia.

CONCLUSIONS

These results suggest major alterations in NPY receptor mechanisms in experimental cancer anorexia, with receptor affinity being decreased progressively as the rats become more anorectic. The absence of a compensatory up-regulation in receptor density in the presence of decreased endogenous NPY concentrations indicate dysfunction in receptor regulatory mechanisms. This receptor aberration may be the central nervous system basis for the etiology of cancer anorexia.

Anorectic and neurochemical effects of pituitary adenylate cyclase activating polypeptide in rats

Pretreatment of rats with intrahypothalamic injections of pituitary adenylate cyclase activating peptide (PACAP) 10 min prior to the injection of neuropeptide Y (NPY) significantly reduced food and water intake during the 4-h measurement period. Intrahypothalamic injection of PACAP in schedule-fed rats also reduced food and water intake for 2 h. A smaller 1-h reduction of water intake was observed in water-deprived rats, suggesting that the anticonsummatory effects of PACAP were primarily against food intake. PACAP treatment did not alter hypothalamic concentration of NPY, nor were neurotransmitters, precursors, or metabolites altered substantially in corpus striatum or nucleus accumbens regions. These results demonstrate primary anorectic effects of intrahypothalamic injection of PACAP. The demonstration of these anorectic effects may suggest a role of cyclic AMP activation and inhibition in the control of satiety and hunger.

Differential effects of tumor and parenteral nutrition on jejunal mucosal polyamines

Nutritional repletion of tumor-bearing (TB) organisms by means of total parenteral nutrition (TPN) has been associated with gut atrophy, immunosuppression, and increased infection rate. To assess possible molecular mechanisms of intestinal atrophy during TPN, jejunal mucosal polyamine concentrations and biosynthetic activity were assessed in non-TB (NTB) and TB rats maintained on rat chow or TPN for eight days. As expected, jejunal mucosal protein content was decreased in both groups of rats maintained on TPN. Although mucosal concentration of putrescine was decreased in TB groups and in the NTB group maintained on TPN, levels of spermidine and spermine were decreased only in the NTB-TPN group. Spermidine levels were elevated significantly in both TB groups. The concentration of spermine was also elevated in the TB-TPN group but was not changed in the TB group maintained on chow. Activity of ornithine decarboxylase was increased in the NTB-TPN group but was not altered significantly in either TB group. S-adenosylmethionine decarboxylase activity was decreased significantly in TB rats maintained on chow and was increased back to control level in the TB-TPN group. These results suggest that jejunal mucosal polyamines are decreased in NTB rats maintained on TPN. Additionally, it appears that enzyme activity is induced in NTB-TPN rats, perhaps in response to the reduction in polyamines and gut atrophy. The absence of similar changes in TB rats maintained on TPN suggests that regulatory mechanisms of polyamine biosynthesis, such as product inhibition, may be refractory. In addition, polyamine biosynthesis from other sources, such as tumor tissue, may be affecting the control of intestinal polyamine biosynthesis.

[D-TRP32]neuropeptide Y: a competitive antagonist of NPY in rat hypothalamus

Neuropeptide Y (NPY) is a potent orexigenic peptide. Structure-activity studies have revealed that nearly the entire sequence of NPY is required to elicit feeding responses. Therefore, in order to develop antagonistic peptides for NPY-induced feeding, we synthesized full-length analogs of NPY, substituting D-Trp in the C-terminal receptor binding region, and screened their activity in rat hypothalamus. Although [D-Trp36]NPY and [D-Trp34]NPY inhibited isoproterenol-stimulated hypothalamic membrane adenylate cyclase activity, [D-Trp32]NPY exhibited no intrinsic activity. Furthermore, [D-Trp32]NPY inhibited [125I]NPY binding to rat hypothalamic membranes with a potency comparable to that of NPY. The presence of 30 and 300 nM concentrations of [D-Trp32]NPY shifted the inhibitory dose-response curve of NPY on isoproterenol-stimulated hypothalamic membrane adenylate cyclase activity parallel to the right with comparable KB values. Moreover, in vivo experiments in rats revealed that [D-Trp32]NPY (10 micrograms) significantly attenuated the 1-h feeding response induced by NPY (1 microgram). Several other substitutions at position 32 including 2-D-Nal resulted in agonist activity, suggesting that there are strict structural requirements to induce the antagonistic property in NPY. These findings confirm that [D-Trp32]NPY is a competitive antagonist of NPY in both in vitro and in vivo systems. Analogs based on [D-Trp32]NPY may have potential clinical application, since NPY has been implicated in the pathophysiology of a number of feeding disorders including obesity, anorexia, and bulimia.

Parenteral vs enteral nutrition in tumor-bearing rats

The development of cachexia may complicate cancer therapy, yet controversy exists concerning its nutritional management. For example, use of total parenteral nutrition (TPN) may not be appropriate because of gut atrophy, possible stimulation of tumor growth, and lack of total host protein repletion. In the present experiment, host and tumor responses were compared after identical parenteral or enteral nutritional supplementation (EN). Eighteen days after subcutaneous inoculation of adult male Fischer-344 rats with fresh methylcholanthrene-induced sarcoma (tumor-bearing [TB] rats), catheters were placed into either the external jugular vein or the stomach. Four days later, rats were started on an 11-day course of either TPN or EN with a Freamine-III-based formula (amino acids = 6%, dextrose = 21.5%, lipid = 1.5%). When the rats were killed, there was no difference in tumor weight between the various TB groups. Carcass weight was increased significantly in both the TB-TPN and TB-EN groups, and there was an elevation in gastrocnemius protein content in both groups compared with the TB-rat food group. Small intestine protein was preserved in the TB-EN group to the level observed in the control-rat food animals. Total lipids in the liver were increased in both TB-TPN and TB-EN groups; however, the magnitude of the increase was less in the TB-EN animals. Neither treatment resulted in complete protein repletion of tumor-bearing rats. EN may be more appropriate than TPN in that gut mass is preserved. The maintenance of gut mucosa may prove to be beneficial in the treatment of the depleted, immunocompromised, and metabolically stressed host.

Hypothalamic concentration and release of neuropeptide Y into microdialysates is reduced in anorectic tumor-bearing rats

Hypothalamic concentration of neuropeptide Y was decreased significantly in anorectic tumor-bearing rats, while NPY level was increased significantly in matched carcass weight control rats as compared with freely-feeding controls. In vivo microdialysis of the perifornical hypothalamic area of tumor-bearing rats prior to the development of anorexia revealed no alteration in NPY in dialysates. Following the development of anorexia, however, tumor-bearing rats exhibited significant reduction in NPY concentration in dialysates as compared with either matched carcass weight or freely-feeding control group. These results suggest that hypothalamic NPY concentration and release are decreased selectively in anorectic tumor-bearing rats. Since NPY also elicits less feeding in tumor-bearing rats, dysfunction of hypothalamic NPY feeding mechanisms may be of primary importance in cancer anorexia.

Insulin reverses ammonia-induced anorexia and experimental cancer anorexia

Previous experiments suggest that experimental cancer-induced anorexia is associated with hyperammonemia and that daily injections of insulin may attenuate the anorexia for several days. In the present study, we determined whether similar daily insulin treatments would correct anorexia induced by the infusion of ammonium salts and compared this feeding response with that of insulin-treated tumor-bearing (TB) rats. Daily treatment of control and anorectic TB rats with systemically administered insulin for six days increased feeding in all control rats and 40% of the TB rats. All insulin-treated groups exhibited equal degrees of hypoglycemia irrespective of anorexia. Basal concentrations of lactate and glucagon were elevated in saline-treated TB rats. Plasma lactate levels were normalized by insulin treatment, whereas glucagon was normalized only in the TB rats that fed to insulin and increased further in TB rats that did not feed to insulin. Elevated hypothalamic tyrosine was reduced in insulin-treated TB rats that ate, and 5-hydroxy-indoleacetic acid was increased further when the rats did not eat. Insulin also blocked anorexia resulting from the intravenous infusion of ammonium salts. Hypothalamic concentrations of tyrosine and tryptophan were increased by the ammonia infusion and reduced significantly in insulin-treated infused rats. These results indicate that insulin treatment can reverse experimental cancer-induced anorexia and hyperammonemia-induced anorexia. Neurochemical changes associated with these treatments are also similar, but not identical.

Possible role of neuropeptide Y in experimental cancer anorexia

The efficacy of NPY to elicit feeding in TB rats was reduced prior to the onset of overt anorexia, with the feeding response decreasing further as anorexia developed. Hypothalamic concentration of NPY was reduced in TB rats, with the magnitude of the decrease paralleling the degree of anorexia. Binding affinity of NPY to hypothalamic membranes taken from TB rats suggested decreased binding affinity with no change in receptor number. Infusing ammonium salts at a concentration and rate necessary to increase blood ammonia levels to the degree observed in TB rats, produced anorexia and decreased NPY feeding. These results suggest that NPY feeding systems are abnormal in TB rats and that hyperammonemia may be of primary importance in this dysfunction.

Anorexia following the systemic injection of amylin

The intravenous injection of 100 micrograms/kg of rat amylin reduced food intake in schedule-fed rats for 1 h of an 8 h measurement period. Associated with this brief anorexia was a hyperglycemic response, observed 30 min after a subsequent amylin administration. Determination of neurochemical alterations revealed increased concentration of serotonin in the hypothalamus and decreased level of the dopamine metabolite, 3-methoxytyramine, in the corpus striatum. Since similar neurochemical alterations were observed following the systemic injection of glucose, both the neurochemical changes and anorexia following intravenous amylin treatment may be secondary to hyperglycemia.

Effects of increased beta 2-agonist dose in tumor-bearing animals

Cachexia and malnutrition are major contributing causes of significant morbidity and mortality in the cancer patient. Although supplemental nutrition alone does not reverse the cachectic process, the use of anabolic beta 2-adrenergic agonists in conjunction with supplemental nutrition does significantly reverse cachectic processes in tumor-bearing (TB) animals. To determine the most efficacious dose of the beta 2-agonist cimaterol (CIM), male Fischer-344 rats with dorsal subcutaneous methylcholanthrene sarcomas were maintained on supplemental enteral nutrition via surgically placed gastrostomy tubes. TB rats were given daily subcutaneous injections of either saline (Sal) or one of three doses of CIM for seven days. TB-Sal animals demonstrated significant cachexia with decreased extensor digitorum longus and gastrocnemius muscle dry weight and protein content. There was a significant increase in both extensor digitorum longus and gastrocnemius muscle dry weight and protein content in all treatment groups compared with TB controls. The greatest increase was in the 0.30 mg/kg CIM treatment group. Increased cardiac mass was associated with increasing dosage, with the greatest effect being observed in the 0.60 mg/kg CIM treatment group. This dosage, however, was associated with a decreased effect on muscle weight and protein content compared with the 0.30 mg/kg CIM dose. Thus the peak anabolic effect in TB animals was reached with the 0.30 mg/kg dose of CIM. Therefore, use of the beta 2-agonist CIM may prove useful in the treatment of cancer-induced cachexia.

Amylin increases transport of tyrosine and tryptophan into the brain

Injection of amylin (diabetes-associated peptide) into the hypothalamus induces anorexia, increases brain metabolism of dopamine and serotonin and elevates brain level of tryptophan. When male Sprague-Dawley rats were treated with 50 mg/kg L-tryptophan and L-tyrosine ethyl ester 30 min prior to the intrahypothalamic injection of 2 micrograms amylin, brain tryptophan and tyrosine levels were selectively increased as compared to rats treated with amylin alone. Hypothalamic and striatal serotonin metabolism also appeared to be increased following the amino acid-amylin treatment combination. These results suggest that amylin may increase transport of tyrosine and tryptophan into the brain, and that the increased availability of tryptophan may contribute to increased serotonin turnover observed following intrahypothalamic amylin treatment.

Tests of adipsia and conditioned taste aversion following the intrahypothalamic injection of amylin

Intrahypothalamic injection of amylin (AMY) was shown to reduce the intake of rat chow and water for 8 and 4 h, respectively, in schedule-fed rats. Amylin also reduced water intake to a much lesser degree in 24-h water-deprived rats. A test of the ability of AMY to form a conditioned taste aversion yielded no change in saccharin preference, as compared to controls treated with vehicle. These results suggest that although AMY has adipsic effects, the reduction in water is not of sufficient magnitude to cause the anorexia. In addition, the failure of AMY to support a conditioned taste aversion suggests that AMY does not cause anorexia by inducing malaise. Therefore, in addition to other metabolic effects, AMY may be involved in the control of food and water intake.

Central and peripheral effects of sculpin pancreatic polypeptide and anglerfish peptide Y in rats

Sculpin pancreatic polypeptide (PP) and anglerfish peptide Y (aPY-amide) are 36-residue peptide amides isolated from the pancreas of the respective species of fish. They are 86% homologous, and exhibit about 65% homology to porcine neuropeptide Y (NPY) and peptide YY (PYY). This homology to mammalian peptides suggests that the fish peptides may constitute a good model system for structure-activity investigations. We therefore synthesized sculpin PP and aPY-amide by the solid phase method and investigated their central and peripheral effects on feeding and blood pressure, respectively. These investigations revealed that both peptides, like NPY, increased blood pressure and induced feeding in rats, presumably by interacting with receptors of NPY. Although there were comparable responses to both peptides on feeding, aPY-amide exhibited a more potent pressor effect than sculpin PP. These observations suggest that the central and peripheral effects of NPY may be mediated by different subclasses of NPY receptors.

Aphagic and adipsic effects of interleukin-1

Intake of rat chow and water was reduced 4 and 8 h after the intrahypothalamic injection of 5 ng interleukin-1a (IL-1a). Although core body temperature was also elevated significantly for at least 4 h by the administration of this cytokine, resting energy expenditure was not altered. These results suggest that IL-1a may be involved in the reduction of feeding associated with trauma, infection or cancer, by inducing early satiety. Additionally, hyperthermia associated with the injection of IL-1a appears to be maintained by decreased heat dissipation rather than by increased thermogenesis.

Reversal of cancer cachexia in rats by cimaterol and supplemental nutrition

The anabolic beta 2-agonist cimaterol was used in conjunction with supplemental nutrition to reverse cancer-induced cachexia and malnutrition in tumor-bearing rats. Cimaterol was administered to tumor-bearing rats receiving total parenteral nutrition or enteral nutrition for 10 days, beginning 2 weeks after subcutaneous transplantation of methylcholanthrene sarcoma. A significant increase occurred in both muscle weight and muscle protein in animals receiving cimaterol in conjunction with either enteral or parenteral feeding, compared to food fed tumor-bearing animals. Muscle protein content was increased significantly by 16% in cimaterol-treated rats maintained on parenteral nutrition and by 11% in cimaterol-treated enterally fed rats compared with the respective tumor-bearing controls. Urinary concentrations of 3-methylhistidine, an estimation of muscle turnover or catabolism, were significantly reduced in both tumor-bearing groups treated with cimaterol compared to 3-methylhistidine levels of the untreated tumor-bearing groups. The anabolic effects of cimaterol were expressed in the presence of a large tumor burden resulting in reversal of muscle depletion and muscle breakdown regardless of the route of supplemental nutrition. Thus, beta 2-agonists may be considered as a possible therapy for cancer cachexia.

Syntheses, structures and anorectic effects of human and rat amylin

Amylin, a 37-residue polypeptide with a single disulfide bond originally isolated from the pancreas of type-II diabetic patients, has been shown to cause peripheral insulin resistance and to attenuate the inhibition of hepatic glucose output by insulin. We have also shown that amylin is present in the rat hypothalamus and that it inhibits food intake by rats. In order to further investigate the anorectic properties we synthesized both human and rat amylin by the solid phase method and purified to homogeneity in an overall yield of 10-20%. Structural analyses indicated that human amylin exhibited predominantly a beta-sheet structure at both acidic and alkaline pH, whereas no ordered structure was evident in the case of rat amylin. Intrahypothalamic injection of rat amylin resulted in a potent dose-dependent inhibitory effect on the food intake by rats adapted to eat their daily ration of food in an eight-hour period. Human amylin was less effective as an anorectic agent. Furthermore, rat amylin completely blocked the potent orexigenic effect of neuropeptide Y (NPY). These investigations show that there is a fundamental difference in the secondary structures of human and rat amylin and that rat amylin is a potent inhibitor of both basal and NPY-induced feeding by rats.

Clenbuterol treatment increases muscle mass and protein content of tumor-bearing rats maintained on total parenteral nutrition

Treatment of tumor-bearing (TB) and control rats with the anabolic beta-2 agonist drug clenbuterol (CLE) for 14 days reduced food intake for 4 days initially. Feeding was increased in anorectic TB rats, however, during the last 7 days of drug administration. Since minimal muscle savings were observed in chow-fed TB rats treated with CLE, the anabolic effects of this drug were investigated in a second experiment on TB rats maintained on total parenteral nutrition (TPN). Sixteen days after the subcutaneous transplantation of methylcholanthrene-induced sarcomas rats was begun on a 2-week schedule of TPN. One group of these rats was treated daily for 14 days with CLE, while the remaining rats received injections of saline. Additional groups of TB and nonTB rats were maintained on rat chow for this period and treated with saline. Although TB rats maintained on rat chow or TPN and treated with saline exhibited significantly decreased gastrocnemius muscle weight and protein content, treatment of TB-TPN rats with clenbuterol normalized muscle mass and increased muscle protein content significantly and increased plasma concentrations of branched-chain amino acids. These results indicate that although nutritional support of TB organisms does not result in protein repletion, the addition of an anabolic drug renders the nutritional support highly efficacious.

Hyperammonemia and anorexia in Morris hepatoma-bearing rats

Inoculation of Buffalo rats with Morris hepatoma produced significant anorexia within four weeks and reduced body weight within two weeks. Blood ammonia concentration was increased by 113% when the rats were euthanized, five days after the development of anorexia. Infusing ammonium salts into normal Buffalo rats also induced anorexia at a blood ammonia concentration comparable to that observed in the tumor-bearing rats. Although ammonia-infused rats exhibited expected increases in brain tyrosine, tryptophan, and metabolites of dopamine and serotonin, these alterations were attenuated in the tumor-bearing rats. These results indicate that hyperammonemia may be a general consequence of experimental cancer and that the increase in ammonia concentration may be of primary importance in the development of experimental cancer-induced anorexia. The rather small alterations in neurotransmitter metabolism in anorectic tumor-bearing rats deemphasize the role aberrations in DA and 5-HT systems in the development of experimental cancer anorexia.

Methionine sulfoximine intensifies cancer anorexia

Consistent anorexia was first observed 33 days after inoculating Fischer 344 rats with methylcholanthrene-induced sarcoma. Daily treatment of a similar group of rats with the glutamine synthetase inhibitor, methionine sulfoximine, elicited significant reductions of feeding by day 29 at a dose that had no effect on nontumor-bearing rats. Blood concentrations of ammonia were elevated in both groups of tumor-bearing rats and brain ammonia level was increased in the methionine sulfoximine-treated tumor-bearing rats. Forebrain concentrations of tyrosine, tryptophan, DOPAC and 5-HIAA were elevated in both groups of tumor-bearing rats. Since ammonia is detoxified through the glutamine synthetase reaction, these results suggest that blood and brain ammonia concentrations are more important than the neurochemical consequences of ammonia detoxification for the etiology of cancer anorexia.

Anorexia following the intrahypothalamic administration of amylin

The intrahypothalamic injection of rat amylin reduced feeding in schedule-fed rats for eight hours. Specificity of this anorectic response was indicated by an appropriate dose-response relationship and the absence of effect of human amylin. Amylin-induced anorexia was accompanied by alterations in neurotransmitter metabolism similar to those observed in anorectic tumor-bearing rats. These results indicate that amylin may inhibit feeding by acting directly on hypothalamic neurons to alter metabolism of neurotransmitter systems known to affect feeding behavior.

Tumor-induced alterations in brain neurotransmitter and plasma ammonia concentrations are normalized twenty-four hours after tumor resection

Tumor-induced anorexia was accompanied by significant elevations in plasma ammonia and lactate and by alteration of the plasma amino acid profile. The brains of anorectic tumor-bearing rats had increased levels of glutamine and most large neutral amino acids. Dopamine and serotonin metabolism were also increased in several brain regions of these rats. Resection of the tumor resulted in the normalization of most of these aberrations in blood and brain within 24 hrs. These results demonstrate a rapid reversal of tumor-induced biochemical alterations shortly after tumor removal and suggest that these aberrations may be secondary to hyperammonemia.

Decreased myofibrillar protein breakdown following treatment with clenbuterol

Daily treatment of Fischer-344 rats for 14 days with the beta 2-adrenergic agonist, clenbuterol, increased gastrocnemius muscle mass and protein content. Coadministration with the beta-adrenergic antagonist, nadolol, significantly reduced these anabolic effects of clenbuterol. Although clenbuterol treatment reduced food intake during the first 4 days, clenbuterol-treated rats were hyperphagic during the second week of drug administration. Nadolol treatment also blocked these effects of clenbuterol on feeding. In a second experiment, in vitro incubation of extensor digitorum longus muscles taken from post weaning food-deprived rats demonstrated decreased release of 3-methylhistidine by clenbuterol-treated rats, suggesting decreased breakdown of myofibrillar protein. Protein synthesis was not increased in vitro in the soleus muscles taken from these rats. These experiments demonstrate that the anabolic effect of clenbuterol is due in part to beta-adrenergic activity and may involve reduced myofibrillar protein degradation. These results appear to have direct application to nutrition and protein repletion in various catabolic diseases.

Clenbuterol plus acivicin decrease tumor growth and increase muscle mass in rats maintained on total parenteral nutrition

Two problems associated with supplemental nutrition of tumor-bearing organisms are control of tumor growth and reduction of cachexia. To investigate these problems, rats bearing methylcholanthrene-induced sarcomas were maintained on total parenteral nutrition (TPN) for 10 to 12 days beginning 23 days after tumor inoculation. Combined treatment of one group of these rats with the glutamine antimetabolite, acivicin, and the beta 2-adrenergic agonist, clenbuterol, arrested tumor growth, increased skeletal muscle mass and protein content, increased gut mass, and decreased total plasma lipid levels. Resting energy expenditure and cardiac mass were increased by TPN and were increased further by acivicin plus clenbuterol. These results demonstrate that tumor growth and muscle wasting can be controlled during TPN of tumor-bearing organisms. Therefore, cachectic depletion of lean body tissue may not be obligatory in neoplastic disease.

Factors influencing the concentrations of the large neutral amino acids in the brain and in the CSF of dogs after portacaval anastomosis

Portal-systemic shunting of blood is associated with hyperammonemia, an increased glutamine concentration in brain, an altered plasma neutral amino acid pattern, and high levels of several of the large neutral amino acids in brain. Since some of these amino acids are precursors for neurotransmitters and for other potentially neuroactive substances, high CNS levels of these amino acids may contribute to the development of encephalopathy. In order to determine the relative importance of changes in brain glutamine levels and changes in competition among the neutral amino acids for blood-brain transport, we measured the concentrations of the large neutral amino acids in plasma, cisternal cerebrospinal fluid and in brain tissue from various regions of dogs after end-to-side portacaval shunt. Although the changes in CSF amino acid levels correlated partially with altered amino acid plasma competitor ratios, better correlations were observed with the elevation of CSF glutamine. These results suggest a model of blood-brain amino acid transport in which a high level of glutamine in brain extracellular fluid competes with other neutral amino acids for efflux from brain, thus raising brain amino acid levels after portal-systemic shunting.

Effect of prostaglandin E in multiple experimental models: V. Effect on tumor/host interaction

Prostaglandin E (PGE) has long been incriminated as a cause of the immunosuppression seen in cancer patients and for the increased rates of tumor growth due to the impairment of the immunologic response to the tumor. We have investigated the effect of PGE on tumor-host interaction by utilizing a parenterally administered long-acting PGE derivative, 16,16-dimethyl-prostaglandin E (dPGE). Administration of dPGE was found to decrease the rate of tumor growth but at a cost of decreasing tumor-free body mass. The dPGE did not alter resting metabolic rates but did alter some parts of brain dopamine metabolism and significantly decreased the serum level of multiple amino acids. In conclusion, elevated PGE levels may significantly alter metabolism in tumor patients.