Growth Hormone-Releasing Hormone in Diabetes

Growth hormone-releasing hormone (GHRH) is produced by the hypothalamus and stimulates growth hormone synthesis and release in the anterior pituitary gland. In addition, GHRH is an important regulator of cellular functions in many cells and organs. Expression of GHRH G-Protein Coupled Receptor (GHRHR) has been demonstrated in different peripheral tissues and cell types, including pancreatic islets. Among the peripheral activities, recent studies demonstrate a novel ability of GHRH analogs to increase and preserve insulin secretion by beta-cells in isolated pancreatic islets, which makes them potentially useful for diabetes treatment. This review considers the role of GHRHR in the beta-cell and addresses the unique engineered GHRH agonists and antagonists for treatment of type 2 diabetes mellitus. We discuss the similarity of signaling pathways activated by GHRHR in pituitary somatotrophs and in pancreatic beta-cells and possible ways as to how the GHRHR pathway can interact with glucose and other secretagogues to stimulate insulin secretion. We also consider the hypothesis that novel GHRHR agonists can improve glucose metabolism in Type 2 diabetes by preserving the function and survival of pancreatic beta-cells. Wound healing and cardioprotective action with new GHRH agonists suggest that they may prove useful in ameliorating certain diabetic complications. These findings highlight the future potential therapeutic effectiveness of modulators of GHRHR activity for the development of new therapeutic approaches in diabetes and its complications.

Functional role of serotonin in insulin secretion in a diet-induced insulin-resistant state

The physiological role of serotonin, or 5-hydroxytryptamine (5-HT), in pancreatic β-cell function was previously elucidated using a pregnant mouse model. During pregnancy, 5-HT increases β-cell proliferation and glucose-stimulated insulin secretion (GSIS) through the Gαq-coupled 5-HT2b receptor (Htr2b) and the 5-HT3 receptor (Htr3), a ligand-gated cation channel, respectively. However, the role of 5-HT in β-cell function in an insulin-resistant state has yet to be elucidated. Here, we characterized the metabolic phenotypes of β-cell-specific Htr2b(-/-) (Htr2b βKO), Htr3a(-/-) (Htr3a knock-out [KO]), and β-cell-specific tryptophan hydroxylase 1 (Tph1)(-/-) (Tph1 βKO) mice on a high-fat diet (HFD). Htr2b βKO, Htr3a KO, and Tph1 βKO mice exhibited normal glucose tolerance on a standard chow diet. After 6 weeks on an HFD, beginning at 4 weeks of age, both Htr3a KO and Tph1 βKO mice developed glucose intolerance, but Htr2b βKO mice remained normoglycemic. Pancreas perfusion assays revealed defective first-phase insulin secretion in Htr3a KO mice. GSIS was impaired in islets isolated from HFD-fed Htr3a KO and Tph1 βKO mice, and 5-HT treatment improved insulin secretion from Tph1 βKO islets but not from Htr3a KO islets. Tph1 and Htr3a gene expression in pancreatic islets was not affected by an HFD, and immunostaining could not detect 5-HT in pancreatic islets from mice fed an HFD. Taken together, these results demonstrate that basal 5-HT levels in β-cells play a role in GSIS through Htr3, which becomes more evident in a diet-induced insulin-resistant state.

Characterization of mice expressing Ins1 gene promoter driven CreERT recombinase for conditional gene deletion in pancreatic β-cells

Gene manipulation using Cre-loxP recombination has proven to be an important approach for studying the impact of gene expression on pancreatic β-cell biology. We report the generation of a transgenic mouse line that enables a highly specific system for conditional gene manipulation within β-cells and achieve tissue specific and temporally regulated deletion of the Ctnnb1 (β-catenin) gene in pancreatic β-cells. cDNA encoding Cre recombinase fused to modified estrogen receptor (CreERT) under control of mouse insulin 1 gene promoter (Ins1) was used to construct the mouse line Tg(Ins1-Cre/ERT)1Lphi, also termed MIP1-CreERT. In a cross of MIP1-CreERT with a ROSA26/LacZ reporter strain, tamoxifen [Tmx] - dependent β-galactosidase expression occurred within pancreatic β-cells but not in other organ systems. Intraperitoneal glucose tolerance tests and glucose-stimulated changes in β-cell cytoplasmic calcium concentration were not adversely affected in adult MIP1-CreERT. A mouse line with floxed Ctnnb1 gene (Ctnnb1f/f) was crossed with the MIP1-CreERT line to generate a mouse model for inducible β-cell specific deletion of β-catenin gene (Ctnnb1f/f:MIP1-CreERT). Ctnnb1f/f:MIP1-CreERT mice and Ctnnb1f/f littermate controls, were injected with Tmx as adults to knock down β-catenin production in the majority of pancreatic β-cells. These mice showed normal glucose tolerance, islet cyto-architecture and insulin secretion. A novel protein fraction of 50Kd, immunoreactive with anti-β-catenin was observed in islet extracts from Ctnnb1f/f:MIP1-CreERT[Tmx] mice but not MIP1-CreERT-negative Ctnnb1f/f[Tmx] controls, indicating possible presence of a cryptic protein product of recombined Ctnnb1 gene. The MIP1-CreERT mouse line is a powerful tool for conditional manipulation of gene expression in β-cells.

Conditional gene targeting in mouse pancreatic ß-Cells: analysis of ectopic Cre transgene expression in the brain

OBJECTIVE

Conditional gene targeting has been extensively used for in vivo analysis of gene function in β-cell biology. The objective of this study was to examine whether mouse transgenic Cre lines, used to mediate β-cell- or pancreas-specific recombination, also drive Cre expression in the brain.

RESEARCH DESIGN AND METHODS

Transgenic Cre lines driven by Ins1, Ins2, and Pdx1 promoters were bred to R26R reporter strains. Cre activity was assessed by β-galactosidase or yellow fluorescent protein expression in the pancreas and the brain. Endogenous Pdx1 gene expression was monitored using Pdx1(tm1Cvw) lacZ knock-in mice. Cre expression in β-cells and co-localization of Cre activity with orexin-expressing and leptin-responsive neurons within the brain was assessed by immunohistochemistry.

RESULTS

All transgenic Cre lines examined that used the Ins2 promoter to drive Cre expression showed widespread Cre activity in the brain, whereas Cre lines that used Pdx1 promoter fragments showed more restricted Cre activity primarily within the hypothalamus. Immunohistochemical analysis of the hypothalamus from Tg(Pdx1-cre)(89.1Dam) mice revealed Cre activity in neurons expressing orexin and in neurons activated by leptin. Tg(Ins1-Cre/ERT)(1Lphi) mice were the only line that lacked Cre activity in the brain.

CONCLUSIONS

Cre-mediated gene manipulation using transgenic lines that express Cre under the control of the Ins2 and Pdx1 promoters are likely to alter gene expression in nutrient-sensing neurons. Therefore, data arising from the use of these transgenic Cre lines must be interpreted carefully to assess whether the resultant phenotype is solely attributable to alterations in the islet β-cells.

Reversible translocation of EYFP-tagged STIM1 is coupled to calcium influx in insulin secreting beta-cells

Calcium (Ca(2+)) signaling regulates insulin secretion in pancreatic beta-cells. STIM1 has been proposed to function as an endoplasmic reticulum (ER) Ca(2+) sensor regulating store-operated Ca(2+) entry (SOCE). Here we studied the translocation of EYFP-STIM1 in response to ER calcium depletion in mouse insulinoma MIN6 cells by fluorescent microscopy. While in resting cells EYFP-STIM1 is co-localized with an ER marker, in thapsigargin (Tg)-stimulated cells it occupied highly defined areas of the peri-PM space in punctae adjacent to, but not entirely coincident with the ER. Co-staining with fluorescent phalloidin revealed that EYFP-STIM1 punctae was located in actin-poor areas. Use of the SOCE blocker in MIN6 cells, 2-aminoethoxy diphenylborate (2-APB), prevented store depletion-dependent translocation of EYFP-STIM1 to the PM in a concentration-dependent (3.75-100muM) and reversible manner. TIRF microscopy revealed that 2-APB treatment led to the reversible disappearance of peri-PM EYFP-STIM1 punctae, while the ER structure in this compartment remained grossly unaffected. We conclude from this data that in these cells EYFP-STIM1 is delivered to a peri-PM location from the ER upon store depletion and this trafficking is reversibly blocked by 2-APB.

Downstream regulatory element antagonistic modulator regulates islet prodynorphin expression

Calcium-binding proteins regulate transcription and secretion of pancreatic islet hormones. Here, we demonstrate neuroendocrine expression of the calcium-binding downstream regulatory element antagonistic modulator (DREAM) and its role in glucose-dependent regulation of prodynorphin (PDN) expression. DREAM is distributed throughout beta- and alpha-cells in both the nucleus and cytoplasm. As DREAM regulates neuronal dynorphin expression, we determined whether this pathway is affected in DREAM(-/-) islets. Under low glucose conditions, with intracellular calcium concentrations of <100 nM, DREAM(-/-) islets had an 80% increase in PDN message compared with controls. Accordingly, DREAM interacts with the PDN promoter downstream regulatory element (DRE) under low calcium (<100 nM) conditions, inhibiting PDN transcription in beta-cells. Furthermore, beta-cells treated with high glucose (20 mM) show increased cytoplasmic calcium (approximately 200 nM), which eliminates DREAM's interaction with the DRE, causing increased PDN promoter activity. As PDN is cleaved into dynorphin peptides, which stimulate kappa-opioid receptors expressed predominantly in alpha-cells of the islet, we determined the role of dynorphin A-(1-17) in glucagon secretion from the alpha-cell. Stimulation with dynorphin A-(1-17) caused alpha-cell calcium fluctuations and a significant increase in glucagon release. DREAM(-/-) islets also show elevated glucagon secretion in low glucose compared with controls. These results demonstrate that PDN transcription is regulated by DREAM in a calcium-dependent manner and suggest a role for dynorphin regulation of alpha-cell glucagon secretion. The data provide a molecular basis for opiate stimulation of glucagon secretion first observed over 25 years ago.

Inositol (1,4,5)-trisphosphate dynamics and intracellular calcium oscillations in pancreatic beta-cells

Glucose-stimulated insulin secretion is associated with transients of intracellular calcium concentration ([Ca2+]i) in the pancreatic beta-cell. We tested the hypothesis that inositol (1,4,5)-trisphosphate [Ins(1,4,5)P3] [Ca2+]i release is incorporated in glucose-induced [Ca2+]i oscillations in mouse islets and MIN6 cells. We found that depletion of intracellular Ca2+ stores with thapsigargin increased the oscillation frequency by twofold and inhibited the slow recovery phase of [Ca2+]i oscillations. We employed a pleckstrin homology domain-containing fluorescent biosensor, phospholipase C partial differential pleckstrin homology domain-enhanced green fluorescent protein, to visualize Ins(1,4,5)P3 dynamics in insulin-secreting MIN6 cells and mouse islets in real time using a video-rate confocal system. In both types of cells, stimulation with carbamoylcholine (CCh) and depolarization with KCl results in an increase in Ins(1,4,5)P3 accumulation in the cytoplasm. When stimulated with glucose, the Ins(1,4,5)P3 concentration in the cytoplasm oscillates in parallel with oscillations of [Ca2+]i. Maximal accumulation of Ins(1,4,5)P3 in these oscillations coincides with the peak of [Ca2+]i and tracks changes in frequencies induced by the voltage-gated K+ channel blockade. We show that Ins(1,4,5)P3 release in insulin-secreting cells can be stimulated by depolarization-induced Ca2+ flux. We conclude that Ins(1,4,5)P3 concentration oscillates in parallel with [Ca2+]i in response to glucose stimulation, but it is not the driving force for [Ca2+]i oscillations.

Delayed-rectifier (KV2.1) regulation of pancreatic beta-cell calcium responses to glucose: inhibitor specificity and modeling

The delayed-rectifier (voltage-activated) K(+) conductance (K(V)) in pancreatic islet beta-cells has been proposed to regulate plasma membrane repolarization during responses to glucose, thereby determining bursting and Ca(2+) oscillations. Here, we verified the expression of K(V)2.1 channel protein in mouse and human islets of Langerhans. We then probed the function of K(V)2.1 channels in islet glucose responses by comparing the effect of hanatoxin (HaTx), a specific blocker of K(V)2.1 channels, with a nonspecific K(+) channel blocker, tetraethylammonium (TEA). Application of HaTx (1 microM) blocked delayed-rectifier currents in mouse beta-cells, resulting in a 40-mV rightward shift in threshold of activation of the voltage-dependent outward current. In the presence of HaTx, there was negligible voltage-activated outward current below 0 mV, suggesting that K(V)2.1 channels form the predominant part of this current in the physiologically relevant range. We then employed HaTx to study the role of K(V)2.1 in the beta-cell Ca(2+) responses to elevated glucose in comparison with TEA. Only HaTx was able to induce slow intracellular Ca(2+) concentration ([Ca(2+)](i)) oscillations in cells stimulated with 20 mM glucose, whereas TEA induced an immediate rise in [Ca(2+)](i) followed by rapid oscillations. In human islets, HaTx acted in a similar fashion. The data were analyzed using a detailed mathematical model of ionic flux and Ca(2+) regulation in beta-cells. The results can be explained by a specific HaTx effect on the K(V) current, whereas TEA affects multiple K(+) conductances. The results underscore the importance of K(V)2.1 channel in repolarization of the pancreatic beta-cell plasma membrane and its role in regulating insulin secretion.

Small-conductance calcium-activated K+ channels are expressed in pancreatic islets and regulate glucose responses

Glucose-stimulated insulin secretion is associated with transients of intracellular Ca(2+) concentration [Ca(2+)](i) in the pancreatic beta-cell. We identified the expression and function of specific small-conductance Ca(2+)-activated K(+) (SK) channel genes in insulin-secreting cells. The presence of mRNA for SK1, -2, -3, and -4 (intermediate-conductance Ca(2+)-activated K(+) 1 [IK1]) channels was demonstrated by RT-PCR in rodent islets and insulinoma cells. SK2 and -3 proteins in mouse islets were detected by immunoblot and immunocytochemistry. In the tTA-SK3 tet-off mouse, a normal amount of SK3 protein was present in islets, but it became undetectable after exposure to doxycycline (DOX), which inhibits the transcription of the tTA-SK3 gene. The SK/IK channel-blockers apamin, dequalinium, and charybdotoxin caused increases in average [Ca(2+)](i) levels and in frequency of [Ca(2+)](i) oscillations in wild-type mouse islets. In SK3-tTA tet-off mice, the addition of apamin with glucose and tetraethylammonium (TEA) caused a similar elevation in [Ca(2+)](i), which was greatly diminished after DOX suppression of SK3 expression. We conclude that SK1, -2, -3, and IK1 (SK4) are expressed in islet cells and insulin-secreting cells and are able to influence glucose-induced calcium responses, thereby regulating insulin secretion.

Proteoglycan gene expression is decreased in abdominal aortic aneurysms

BACKGROUND

Abdominal aortic aneurysms (AAA) are characterized by both increases in proteolysis and changes in the biosynthesis of the extracellular matrix (ECM) proteins. Proteoglycans are important components of the ECM, particularly the small proteoglycans, biglycan and decorin. Biglycan and decorin regulate cell proliferation and collagen assembly. Therefore, the purpose of this study is to quantify the levels of mRNA for biglycan and decorin in normal aorta (Na) and AAA.

MATERIALS AND METHODS

Northern blot hybridization and competitive polymerase chain reaction using gene-specific external standards were used to quantify mRNA levels of bigylcan and decorin in RNA derived from AAA and NA. Results are expressed as a percentage of glyceraldehyde-3-phosphate dehydrogenase or normalized to ribosomal RNA content and compared using the unpaired t test.

RESULTS

A statistically significant 15-fold decrease in biglycan mRNA expression was observed in AAA compared to NA (176.9% vs 11.8%, P < 0.001). In contrast to biglycan, the decorin mRNA expression is unchanged in AAA compared to NA.

CONCLUSIONS

The marked decrease in biglycan mRNA levels is unique to aneurysmal disease of the aorta. In atherosclerosis and restenosis, biglycan expression is increased in comparison with normal artery. This decrease in biglycan expression may reflect important regulatory changes specific for the AAA. Furthermore, a decrease in biglycan gene expression and biosynthesis could have a broad impact on the physiology and matrix architecture of the aorta.

Size matters: the relationship between MMP-9 expression and aortic diameter

BACKGROUND

Despite a wealth of data detailing increased metalloproteinase (MMP)-9 expression and activity in abdominal aortic aneurysms (AAAs), no studies examine the relationship between aortic size and MMP-9 expression. Because elastolysis occurs early in AAA formation, we hypothesized that MMP-9 expression would vary with aortic diameter. The purpose of this study was to measure MMP-9 mRNA levels in AAAs of various diameters and define the relationship between AAA size and MMP-9 expression.

METHODS AND RESULTS

MMP-9 mRNA levels were measured by competitive polymerase chain reaction (PCR) using gene-specific external standards with cDNA from AAAs (n= 19) and normal aortas (n=4). Levels were normalized to GAPDH mRNA, determined separately via competitive PCR, to control for efficiency of reverse transcription. AAA size was measured on CT scans obtained within 6 weeks of surgery. MMP-9/GAPDH mRNA transcript levels in AAAs were expressed as mean+/-SEM and analyzed by ANOVA with a Tukey adjustment. There was a fourfold elevation in MMP-9/GAPDH mRNA transcript levels in 5.0- to 6.9-cm AAAs (98.06+/-15.19) compared with small (3.0- to 4.9-cm) AAAs (20.87+/-5.15, P<.03), large (>7-cm) AAAs (27.16+/-14.56, P<.01), or normal aortas (3.57+/-1.13, P<.003). The results did not change when they were normalized to patient height, nor were there significant differences in risk factors, age, or sex in each AAA group.

CONCLUSIONS

MMP-9 mRNA expression is significantly higher in moderate-diameter (5- to 6.9-cm) AAAs than either small (<4.0-cm) or large (>7.0-cm) AAAs. Increased MMP-9 expression may account for the propensity of AAAs >5 cm to continue to expand, in contrast to smaller aneurysms. Lower levels in AAAs >7 cm suggest that increases in other enzymes or in diameter-dependent mechanical stress on the aortic wall are responsible for their characteristic rapid expansion and high rupture rates.

Expression of matrix metalloproteinases and their inhibitors in aneurysms and normal aorta

BACKGROUND

Abdominal aortic aneurysms (AAAs) are characterized by degradation of collagen and elastin resulting from increases in matrix metalloproteinase (MMP) activity. Previous authors have identified isolated increases in expression of specific MMPs in AAAs, but none have compared relative levels of expression of particular MMPs to one another or to those of their inhibitors, the tissue inhibitors of metalloproteinases (TIMPs). This study proposes to quantify relative mRNA levels for interstitial collagenase (MMP-1), 72 kd type IV collagenase (MMP-2), 92 kd type IV collagenase (MMP-9), TIMP-1, and TIMP-2 in normal aorta (NA) and AAA to provide insight as to the relative importance of each in aneurysm formation.

METHODS

Competitive polymerase chain reactions (PCRs) with gene-specific external standards and cDNA derived from AAAs (n = 8; mean age, 67.4 years) and NA (n = 5; mean age, 40.6 years) were used to quantify mRNA levels. Results were normalized to glyceraldehyde-3-phosphate dehydrogenase (GAPDH) mRNA levels, determined by means of competitive PCR, and compared by means of Mann-Whitney statistics.

RESULTS

Significant increases in MMP mRNA expression in AAA over NA were observed for MMP-1 (3.64 versus 0.3, p = 0.007), MMP-9 (78.03 versus 3.35, p = 0.003), TIMP-1 (835.32 versus 477.2, p = 0.027), and TIMP-2 (18.09 versus 4.14, p = 0.003). The ratio of MMP to TIMP mRNA levels was higher in AAA than NA (0.135 versus 0.045, p = 0.018).

CONCLUSIONS

Increases in expression of MMP-1, MMP-9, and MMP/TIMP ratios may result in increased proteolysis and matrix degradation, which characterize AAAs. MMP-9 appears to be the predominant metalloproteinase expressed in AAA, because its mRNA levels were more than 20 times and 2 times higher than those of MMP-1 and MMP-2, respectively. TIMP-1 mRNA levels were in molar excess to those of any of the metalloproteinases studied.

Divergent and conserved features in the spatial expression of the Drosophila pseudoobscura esterase-5B gene and the esterase-6 gene of Drosophila melanogaster

The regulatory regions of homologous genes encoding esterase 6 (Est-6) of Drosophila melanogaster and esterase 5B (Est-5B) of Drosophila pseudoobscura show very little similarity. We have undertaken a comparative study of the pattern of expression directed by the Est-5B and Est-6 5'-flanking DNA to attempt to reveal conserved elements regulating tissue-specific expression in adults. Esterase regulatory sequences were linked to a lacZ reporter gene and transformed into D. melanogaster embryos. Est-5B, 5' upstream elements, give rise to a beta-galactosidase expression pattern that coincides with the wild-type expression of Est-5B in D. pseudoobscura. The expression patterns of the Est-5B/lacZ construct are different from those of a fusion gene containing the upstream region of Est-6. Common sites of expression for both kinds of constructs are the third segment of antenna, the maxillary palps, and salivary glands. In vitro deletion mutagenesis has shown that the two genes have a different organization of regulatory elements controlling expression in both the third segment of antenna and maxillary palps. The results suggest that the conservation of the expression pattern in genes that evolved from a common ancestor may not be accompanied by preservation of the corresponding cis-regulatory elements.

[The season of possible malaria transmission by Anopheles claviger and Anopheles messeae mosquitoes in the Chu River valley of the Kyrgyz Republic]

The study was undertaken to define the limits of a possible season of malaria transmission by the prevalent species of Anopheles mosquitoes in the Chu valley situated in the north of the republic where large inhabited areas, including its capital Bishkek, concentrated. The beginning of the malaria transmission season was considered to be associated with the actual emergence of potentially dangerous females whose physiological age at this time was equal or longer than the time required for sporogony to be completed in their bodies. The female physiological age was defined by the intraovarian oil injection method developed by Lange, Chyong Kuang Khok, Sokolova. The duration of sporogenous cycles was determined by the Oganov-Raevskiĭ method and that of gonotrophic cycles was estimated by the Shlënova method. The potentially hazardous females were calculated from the number of gonotrophic cycles which fit the cycle of sporogony in terms of time. The first potentially dangerous An. claviger females were found in Bishkek in the mid-June of 1993. Their maximum was noted in the first half of July. Potentially dangerous females disappeared in the second ten days of September. The similar studies were made for An. messeae on the foothills of the Chu valley where the highest size of the mosquitoes of this species was observed. Potentially dangerous An. messeae females were found from the third ten days of June to the second ten days of September. The findings suggest that the classical role of An. messeae retains in the possible transmission of malaria in the Chu valley of the Kirghiz Republic. However, An. claviger has gained no less importance. These prevalent species can transmit Plasmodium vivax on the territory under study during 2.5 months from late June to mid-September.

Localization of sequences controlling the spatial, temporal, and sex-specific expression of the esterase 6 locus in Drosophila melanogaster adults

The esterase 6 gene (Est-6) of Drosophila melanogaster is expressed in a variety of tissues that differ between larval and adult stages and among related species. Variability in the level of expression of this locus among different species and strains and its species- and tissue-specific patterns of expression make it a useful system for studying the evolution of gene regulation in Drosophila. We have begun to determine the location of the regulatory regions of Est-6 by constructing deletion mutants of the 5' regions of the gene and transforming them back into flies. Deletion mutants of the putative 5' promoter regions of Est-6 were fused to the bacterial beta-galactosidase gene (lacZ) and assayed for their ability to direct tissue-specific expression in transformed D. melanogaster adults. We have identified four independently acting Est-6 regulatory regions that direct the expression of lacZ in (i) the ejaculatory duct; (ii) the adult salivary glands; (iii) the respiratory system, prefrons, antennae, and maxillary palps; and (iv) the ejaculatory bulb and prefrons. We also found a region near the start of transcription that directed expression of Est-6 in the cardia or proventriculus in some transformed lines.

Genetic control and expression of the major ejaculatory bulb protein (PEB-me) in Drosophila melanogaster

PEB-me is a predominant protein of mature Drosophila melanogaster ejaculatory bulbs. It is resolved into four or five closely spaced subfractions (apparent molecular weight 35-39 kD) by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Four electrophoretic variants of PEB-me differing in apparent molecular weight by 200-800 daltons were found. These appear to be controlled by four alleles of a gene (peb) located by recombination and deletion mapping to the 60F1-2 region of chromosome 2. A minor ejaculatory bulb protein of ca. 80 kD (hPEB) was found to be immunochemically related to PEB and possibly encoded by peb. PEB is not detected by immunoblotting techniques in virgin females, in male tissues other than the ejaculatory bulb, or during developmental stages preceding the formation of this organ. The results of transplantations of genital imaginal discs and of immature ejaculatory bulbs between two strains having different PEB alleles suggest that the ejaculatory bulb is the site of PEB synthesis. In flies mutant for tra, tra-2, dsx, or ix, tissue specificity of PEB localization is retained and the protein is found whenever the ejaculatory bulb is formed, regardless of the chromosomal sex of the fly. The protein is transferred into the female genital duct during mating, where it can be detected for up to 12 hr. Possible functions of PEB in Drosophila reproduction are discussed.

[The protein of the ejaculatory bulb (PEB) in Drosophila melanogaster. 2. The organ specificity of its expression]

Tissue localization and synthesis of PEB (the major protein of ejaculatory bulb (EB) in D. melanogaster) were studied. PEB and its minor form hPEB were detected only in EB as shown by immunoblotting technique. Transplantation of genital imaginal disks and the EBs of young males into recipients of strain with different PEB electrophoretic mobility showed that synthesis and accumulation of PEB do not depend on EB interaction with other organs. In genotypic females transformed into males and intersexes by sex-reversing mutations PEB was detected in EB but not in other organs.

[The proteins of the ejaculatory bulbs in different species of Drosophila]

A comparative electrophoretic study or ejaculatory bulb proteins in 29 different Drosophila species has been carried out. In all analyzed species, ejaculatory bulb contains a major component (designated as PEB). It has molecular mass of 61-65 kDa in the species of virilis group, 33-36 kDa in species of obscura group, and 34-56 kDa in species of melanogaster group. Using immunoblotting technique, we have demonstrated that PEB is introduced into organs of female sex tract during mating. The nature and significance of revealed interspecific differences in PEB proteins has been discussed.

[The protein of the ejaculatory bulb (PEB) in Drosophila melanogaster. 1. Its stage specificity and sex dimorphism]

PEB is the major protein (35-39 kDa) of highly differentiated ejaculatory bulbs in D. melanogaster. A minor ejaculatory bulb protein (hPEB) of about 80 kDa was detected using immunoblotting technique. Both proteins exhibit parallel genetic variation in electrophoretic mobility. This suggests that they are coded by the same gene. The proteins are present in adult males and are not detected in virgin females. During development they are first detected in male pupa at the stage of eye pigmentation (that is shortly before imago eclosion). The quantities of PEB and hPEB increase and reach the constant level at 6-10 day of imago development.

[Means of the formation of gonotrophic relations in blood-sucking Diptera]

Gonotrophic relations in low and higher bloodsucking Diptera are fundamentally different that results from an initial type of feeding and trophic behaviour. Trophic behaviour of low dipterous hematophages and gonotrophic harmony peculiar to them can be traced from entomophagy, that is from the predatory mode of life on account of small insects. By the type of the trophic behaviour low bloodsucking Diptera are predators with a typical moment contact with the prey. More primitive is a type of gonotrophic harmony characteristic of hunters for diffusely spread prey (incomplete blood portion provides the maturation of incomplete portion of eggs). Hunting for diffusely spread prey is characteristic of entomophages too. The appearance of gregarious ruminants facilitates the possibility of repeated contacts with prey and blood satiation threshold increases. This is a higher type of gonotrophic harmony providing a maximum realization of potential fecundity. The initial saprophagy of higher Diptera is associated with another type of trophic behaviour (long contact with food substratum) that is a prerequisite for quite a different way of evolution of host-parasite relationships in higher Diptera. This leads to more close connections with the host and excludes gonotrophic harmony. Females were the first to begin the exploitation of vertebrate animals. This is connected with the peculiarities of their behaviour during egg laying such as the stay near animals for laying eggs into fresh dung. Autogeneity, nectarophagy and aphagia are homologous phenomena which reflect the loss of an animal component of food or both components at the level of non-specialized saprophagy rather than secondary loss of bloodsucking. The scheme of gonotrophic relations is given.

[Biology of mosquito Aedes impiger (Culicidae) and its possible role as a phenological indicator]

The biology of Aedes impiger Walk. from the polar region of the European part of the USSR has been studied and literary data have been summarized. Its biological peculiarities such as rapid and simultaneous development of larvae and pupae, a short period of seasonal activity, long daily activity, the presence of autogeny and long obligate diapause provide a distinct localization of the active period of the life cycle within a season. A. impiger develops quicker than other spring species of mosquitoes, emerges the first and can serve as phenoindicator for specification of developmental periods and mass emergence of bloodsucking mosquitoes.

[Frequency characteristics of the flight sounds and of Johnson's organs in sympatric mosquitoes of the genus Aedes (Culicidae)]

Investigation of sounds arising during the flight of four sympatric species of mosquitoes of the genus Aedes has shown that at 24 C the main frequences of females are in the ranges of 308 to 404 Hz and those of males from 503 to 566 Hz (Fig. 1, Tab). In the first instance interspecies differences vary from 20 to 96 Hz, in the second--from 11 to 63 Hz. It has been established by means of electrophysiological methods that Johnson's organs of males of A. diantaeus and A. communis at 24 C respond to soundss of 80 to 500 Hz (minimum thresholds of reaction are from 27 to 30 dB) (Fig. 3.). Small differences between main frequences of sounds of females and optimal frequences of auditory organs of males depend on the temperature (fig. 2) and can be accounted for by the body temperature of flying females increasing that of males. Johnston's organs of males respond to sounds of females of all four species.

[Experience with the laboratory cultivation of the mosquito, Aedes togoi (Culicidae)]

For cultivation of Aedes togoi the aquatic infusion of fallen leaves, peat and dry sphagnum (0.15%S) was used and a larval diet (children's haematogen with an addition of polyvitamin "Undevit" and glutamic acid) was offered. Such cultural medium provides a rapid development of larvae and their survival, high stable weight of pupae, high fecundity and viability of imago. 7 generations were obtained without reducing the quality of culture.