温度适应的分子生物学机制

对温度的适应是机体对抗环境的一种主动行为,表现在细胞内转录和表达模式的改变,出现新基因的开放和新蛋白因子的合成。已在多种动植物中找到温度诱导产生的特异性蛋白。深入的研究表明,它们往往与糖代谢、渗透压调节及蛋白质代谢有关。这些分子大多具有相同的特征,它们同属于一种称作ｄｅｈｙｄｒｉｎ的蛋白家族,对热稳定,表现亲水特征等。它们以多种机制保护细胞,抵抗恶劣环境温度的损害。     

Ontogeny of the endocrine pancreas

The ontogenesis of the endocrine pancreas has been a subject of controversy. The discussion essentially was about organogenesis and histogenesis of islets of Langerhans. Now, the endodermic origin seems well established by several experimental approaches. The variation of the aspects of the islets and of the number of endocrine cells are re-called as well as the functional activity during fetal life. Numerous neuropeptides have been found in endocrine pancreas, so the content of the different endocrine cell types is reviewed with respect to the classic hormones.     

Galanin and the endocrine pancreas

Galanin is a 29 amino acid peptide, initially isolated from the porcine small intestine. The peptide has been shown to occur in intrapancreatic nerves in close association to the islets. Its effects on islet hormone secretion and its possible mechanisms behind these effects are reviewed. Galanin has been shown to inhibit basal and stimulated insulin secretion both in vivo and in vitro under a variety of experimental conditions. The peptide has also been shown to inhibit somatostatin secretion and the secretion of pancreatic polypeptide (PP). With regard to glucagon secretion, however, results in the literature are not consistent since both stimulatory and inhibitory effects have been reported. A direct interaction with the pancreatic beta-cells has been proposed behind its inhibitory action on insulin secretion, since galanin inhibits insulin secretion from isolated beta-cells from obese, hyperglycaemic, mice. Galanin has thereby also been shown to induce repolarization and to reduce the free Ca2+ concentration, [Ca2+]i. The reduction in [Ca2+]i is probably not due to a direct interference with the voltage-activated Ca2+ channels, since there is no effect of galanin when these channels are opened by depolarization induced by high concentrations of K+. Instead, preliminary studies indicate that galanin activates the K+ channels that are regulated by ATP, in turn inducing a repolarization-induced reduction in [Ca2+]i resulting in reduced insulin secretion. However, the possibility that galanin inhibits the insulin secretory mechanism at a step distal to the regulation of cytoplasmic free Ca2+ concentration should not be overlooked.     

Substitutes for the endocrine pancreas

Since it is generally accepted that a tight metabolic control might prevent the chronic complications of diabetes mellitus, several systems have been developed in which insulin is administered in a manner that mimicks the characteristics of insulin secretion. 1) In the so-called closed-loop systems, insulin delivery is regulated by the concomitant plasma glucose level. These systems, which involve continuous measurement of plasma glucose concentration are not to date implantable and have been used so far only for short-term studies. 2) By contrast, in the "open-loop systems", no glucose sensor is needed and insulin delivery is pre-programmed to achieve a constant basal infusion with peaks of insulin delivery during the meal periods. These systems have been used in man for several months. The present achievement and limitations of both kinds of systems are discussed in this review.     

Role of PSBS and LHCSR in Physcomitrella patens acclimation to high light and low temperature

Photosynthetic organisms respond to strong illumination by activating several photoprotection mechanisms. One of them, non-photochemical quenching (NPQ), consists in the thermal dissipation of energy absorbed in excess. In vascular plants NPQ relies on the activity of PSBS, whereas in the green algae Chlamydomonas reinhardtii it requires a different protein, LHCSR. The moss Physcomitrella patens is the only known organism in which both proteins are present and active in triggering NPQ, making this organism particularly interesting for the characterization of this protection mechanism. We analysed the acclimation of Physcomitrella to high light and low temperature, finding that these conditions induce an increase in NPQ correlated to overexpression of both PSBS and LHCSR. Mutants depleted of PSBS and/or LHCSR showed that modulation of their accumulation indeed determines NPQ amplitude. All mutants with impaired NPQ also showed enhanced photosensitivity when exposed to high light or low temperature, indicating that in this moss the fast-responding NPQ mechanism is also involved in long-term acclimation.     

Pathology of the endocrine pancreas.

An immunocytochemical analysis of 94 pancreatic endocrine tumors revealed that 73 tumors were multicellular. Significant amounts of somatostatin and human pancreatic polypeptide were found by radioimmunoassay in extracts of 19 and 17 tumors resp., in addition to the hormone causing the clinical syndrome. Numerous tumors contained ductular structures. In the surrounding pancreatic parenchyma a proliferation of small ducts and budding-off from the ductular epithelium of endocrine cells was often observed. These features are hallmarks of nesidioblastosis of the endocrine pancreas which is a hyperplasia. In multiple endocrine neoplasia I hyperplasia of the endocrine pancreas is combined with larger nodules, currently labeled tumors. On the basis of these findings it is conceivable that pancreatic endocrine tumors are not primarily neoplastic and autonomous but that they are rather of hyperplastic origin.     

Role of the renin-angiotensin system in the endocrine pancreas: implications for the development of diabetes

Activation of the renin-angiotensin system has a pivotal role in the pathogenesis of diabetic complications. However, recent evidence suggests that it may also contribute to the development of diabetes itself. In the endocrine pancreas, all the components of an active renin-angiotensin system are present, which modulate a range of activities including local blood flow, hormone release and prostaglandin synthesis. In both types 1 and 2 diabetes, there is an up-regulation of its expression and activity in the endocrine pancreas. Whether these changes have a direct pathogenetic role or reflect a response to local stress or tissue injury remains to be established. Angiotensin-mediated increases in oxidative stress, inflammation and free fatty acids levels potentially contribute to beta-cell dysfunction in diabetes. In addition, activation of the renin-angiotensin system appears to potentiate the action of other pathogenic pathways including glucotoxicity, lipotoxicity and advanced glycation. In experimental models of type 2 diabetes, blockade of the renin-angiotensin system with angiotensin converting enzyme inhibitors or angiotensin receptor antagonists results in the improvement of islet structure and function. Moreover, the incidence of de novo diabetes appears to be significantly reduced by blockade of the renin-angiotensin system in clinical studies. At least two large controlled trials are currently underway to study the role of renin-angiotensin system in the development of diabetes. It is hoped that these studies will demonstrate the true potential of the blockade of the renin-angiotensin system for the prevention of diabetes.     

Synaptophysin immunoreactivity in the mammalian endocrine pancreas

Summary Synaptophysin, a major membrane glycoprotein of small presynaptic vesicles in neurons, has also been found in microvesicles of endocrine cells, e.g., of the endocrine pancreas. In the present study, the endocrine pancreas in 9 mammalian species (man, dog, mink, bovine, rabbit, guinea pig, rat, mouse, gerbil) has been investigated immunohistochemically for synaptophysin immunoreactivity. Synaptophysin-positive cells have been identified and localized on semithin plastic sections. Our study demonstrates that, in all species examined, all pancreatic endocrine cell types are consistently synaptophysin-positive independent of their location within the tissue, or the conditions of tissue processing. In addition, a few cells that cannot be hormonally identified show synaptophysin immunoreactivity. Hence, synaptophysin appears to be a regular constituent of all pancreatic endocrine cells in mammals. In several species, a subpopulation of endocrine cells, consisting of glucagon-containing and/or pancreatic-polypeptide-containing cells, exhibits a significantly higher degree of synaptophysin immunoreactivity. In the gerbil, this heterogeneity can readily be detected from the day of birth onwards. Our findings indicate that closely related endocrine cell types may differ with respect to the content of synaptophysin.     

The endocrine pancreas of Alligator mississippiensis

Summary Immunocytochemical methods for light and electron microscopy were used to demonstrate the regulatory peptides present in the endocrine pancreas of thealligator, Alligator mississippiensis.The peptides studied included insulin, glucagon (pancreatic and enteric), somatostatin, pancreatic polypeptide (avian, bovine and human), vasoactive intestinal polypeptide, substance P, metenkephalin, -endorphin, C-terminal gastrin/CCK and gastric inhibitory polypeptide. Endocrine cells were detected using antisera to insulin, pancreatic glucagon, somatostatin and avian pancreatic polypeptide, whereas peptidergic nerves were stained with antisera to vasoactive intestinal polypeptide. All other antisera were unreactive in the alligator pancreas. The peptide-containing structures were identified ultrastructurally by both the semithin/thin and immuno-gold methods. The results showed that five of the regulatory peptides commonly detected in the mammalian pancreas were immunologically recognisable in the alligator. In addition, the ultrastructural appearance of the peptide-containing cells was clearly distinct from that reported in mammals.     

Towards stem-cell therapy in the endocrine pancreas

Many approaches of stem-cell therapy for the treatment of diabetes have been described. One is the application of stem cells for replacement of nonfunctional islet cells in the native endogenous pancreas; another one is the use of stem cells as an inexhaustible source for islet-cell transplantation. During recent years three types of stem cells have been investigated: embryonic stem cells, bone-marrow-derived stem cells and organ-bound stem cells. We discuss the advantages and limitations of these different cell types. The applicability for the treatment of dysfunction of beta cells in the pancreas has been demonstrated for all three cell types, but more-detailed understanding of the sequence of events during differentiation is required to produce fully functional insulin-producing cells.     

Histoenzymologie du pancreas endocrine de l'homme

Résumé Des recherches histoenzymatiques sont effectuées sur biopsies de 14 pancréas humains prélevés au cours d'interventions opératoires. Les cellules insulaires présentent une très grande activité pour la G-6-PDH, 6-PGDH, ICDH, Cis-Ac-ase et NADPH-R. Elles montrent une activité plus faible pour la LDH, MDH, 3-PGADH, SDH, ATP'ase, MAO, Sulfatase, Estérase et Leuc. Peptidase. La Lip-DH et la glucuronidase sont faiblement positives. Il existe une différence de l'activité enzymatique entre les cellules A et B; ces dernières montrent une activité plus importante. La G-6-P'ase, la F-1-6-DP'ase sont négatives. Certaines considérations sont faites sur le r?le probable des enzymes étudiées dans la cytophysiologie insulaire.

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Summary Histoenzymatic investigations on 14 normal human biopsies from surgical interventions demonstrate a high activity of G-6-PDH, 6-PGDH, ICDH, Cis-Ac-ase and NADPH-R of the islet cells. The activities of LDH, MDH, 3-PGA-DH, SDH, ATP'ases, MAO, sulfatase, Esterase and Peptidases are considerably less intense. The Lip-DH, the glucuronidase are feebly positive. There exists a difference between the A and the B-cells. These latter shows generally a more considerable activity. Other activities like G-6-P'ase and F-1-6P'ase are negative. Some considerations are drawn on the presumable role of these enzymes in the cytophysiology of the islets of Langerhans.

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Dédié au ProfesseurW. Bargmann à l'occasion de son 60e anniversaire.     

Interpretation of inverse acclimation to temperature

Summary In kidney of goldfish acclimated to 5, 15 and 25° C the peroxisomal enzyme peroxidase and the peroxisomal and cytoplasmic matrix enzyme catalase showed inverse (Precht type 5) acclimation. Peroxisomal D-amino acid oxidase and lysosomal acid phosphatase were unchanged in activity (Precht type 4).A review of literature data on enzyme acclimation patterns shows that generally enzymes concerned with energy liberation — enzymes of glycolysis, hexose monophosphate shunt, TCA cycle and electron transport, also Na, K-ATPase and the synthetic amino acyl transferase — show compensatory acclimation to temperature (Precht type 3). Enzymes for degradation of metabolic intermediates and products such as peroxisomal and lysosomal enzymes, Mg-ATPase, acetylcholine esterase, show no or inverse acclimation to temperature. Changes in digestive enzymes depend on state of nutrition.Support from Research Grant GB 4005 from National Science Foundation is acknowledged.     

Low night temperature acclimation of Phalaenopsis

The capability of Phalaenopsis to acclimate its photosynthetic capacity and metabolic activity to cool night temperature conditions is crucial for improving orchid production in terms of efficient greenhouse heating. The extent to which Phalaenopsis possesses acclimation potential and the mechanistic background of the metabolic processes involved, have, however, not been studied before. Plants were subjected to a direct and gradual shift from a day to night temperature regime of 28/28–28/16°C, the cold stress and cold acclimation treatment, respectively. In comparison with the cold stress treatment, the cold acclimation treatment led to a higher malate accumulation and a reduction in leaf net CO₂ uptake. Consistently, the contribution of respiratory CO₂ recycling to nocturnal malate synthesis was calculated to be 23.5 and 47.0% for the cold stress and cold acclimation treatment, respectively. Moreover, the lower levels of starch measured in the cold acclimated leaves confirmed the suggested enhanced respiratory CO₂ recycling, implying that Phalaenopsis CAM operation evolved towards CAM idling. It is, however, plausible that this adjustment was not an effect of the low night temperature per se but a consequence of cool-root induced drought stress. Apart from that, at the start of the photoperiod, membrane stability showed a depression which was directly counteracted by an increased generation of glucose, fructose and sucrose. From these observations, it can be concluded that the observed plasticity in CAM operation and metabolic flexibility may be recognized as important steps in the low night temperature acclimation of Phalaenopsis.     

The endocrine pancreas of glucagon-and somatostatin-immunized rabbits

Summary Peptide antibodies raised in rabbits are widely used in biology and medicine. During immunization of the animals, the respective antibodies may affect the endocrine cells physiologically responsible for the synthesis of peptides used as antigens. Since corresponding morphological data are still sparse, the rabbit endocrine pancreas was systematically investigated by light microscopy and immunocytochemistry after long-term immunization against glucagon and somatostatin. Both immunizations led to an increase in the number of islets (nesidioblastosis), to the development of giant islets (macronesia), and to changes in the relative proportions of the major types of endocrine cells or their hormonal content. The latter changes differed after either immunization: glucagon immunization resulted in hypertrophy and hyperplasia of glucagon cells and a decrease in their hormonal content; somatostatin immunization led to an increased proportion of somatostatin cells and a lowered hormonal content of insulin cells. The various alterations were expressed differently according to islet type; islets of the rabbit pancreas differ in size or angioarchitecture, and in the proportion and distribution of endocrine cells. The present findings point to autocrine or paracrine effects of the respective peptides. These effects, however, are obviously of differing significance in morphologically heterogeneous islets.Dedicated to Professor Dr. Tsuneo Fujita, Niigata University, JapanPresented in part at the 30th Symposium of the Deutsche Gesellschaft für Endokrinologie (see Jörns et al. 1986)     

Formation and regeneration of the endocrine pancreas

The elaboration of the pancreas from epithelial buds to the intricate organ requires complex patterning information that controls fundamental cellular processes such as differentiation and proliferation of pancreatic progenitor cells. During pancreatic organogenesis, endocrine cells are generated from a population of pancreatic progenitor cells. The progenitor cells during the early development simultaneously receive multiple signals, some mitogenic and some inducing differentiation. These extrinsic signals are interpreted through an intrinsic mechanism that either commits the progenitor cell to the mitotic cell cycle or leads to exit from the cell cycle in order to differentiate. The endocrine cells that differentiate from progenitor cells are postmitotic, and direct lineage tracing analyses indicate that a population of progenitor cells persists throughout embryogenesis to allow the differentiation of new endocrine cells. At the end of embryogenesis an early postnatal period is characterized by high rates of beta cell proliferation leading to massive increases in beta cell mass. The beta cell mass expansion considerably slows down in adult animals, though variations in insulin demand due to physiological and pathological states such as pregnancy and obesity can lead to adaptive changes in the beta cells that include hyperplasia, hypertrophy, and increased insulin synthesis and secretion. Deciphering the mechanisms that regulate the plasticity of beta cell mass can be an important step in developing effective strategies to treat diabetes.