Islet cell surface antibodies in genetically obese hyperglycaemic (ob/ob) mice

A quantitative method for circulating islet cell surface antibodies (ICSA), based on the binding of¹²⁵I-protein A to insulin-producing RINm5F cells, was used to evaluate ICSA in plasma of 4- to 40-week-old Aston obese hyperglycaemic (ob/ob) mice and normal control (+/+) mice. RINm5F cells bound 2502±l196 c.p.m.¹²⁵I-protein A per l0⁵ cells (mean±S.D.,n=54) after incubation with +/+ plasma. ICSA positive plasma (defined as¹²⁵I-protein A binding, mean±2 S.D. of +/+ plasma) was detected in 3 out of 54+/+ mice and 3 out of 54 ob/ob mice. ICSA were not observed in ob/ob mice before the onset of diabetes (7 weeks of age), but were detected at 9, 20 and 40 weeks. At 20 weeks¹²⁵I-protein A binding produced by ob/ob plasma was 35% greater than +/+ plasma (P<0.05). The low occurrence of ICSA in ob/ob mice (6%) suggests that factors other than ICSA are responsible for B-cell dysfunction and eventual islet degeneration observed in Aston ob/ob mice.     

Transgenic mice with green fluorescent protein-labeled pancreatic beta -cells

We have generated transgenic mice that express green fluorescent protein (GFP) under the control of the mouse insulin I gene promoter (MIP). The MIP-GFP mice develop normally and are indistinguishable from control animals with respect to glucose tolerance and pancreatic insulin content. Histological studies showed that the MIP-GFP mice had normal islet architecture with coexpression of insulin and GFP in the beta-cells of all islets. We observed GFP expression in islets from embryonic day E13.5 through adulthood. Studies of beta-cell function revealed no difference in glucose-induced intracellular calcium mobilization between islets from transgenic and control animals. We prepared single-cell suspensions from both isolated islets and whole pancreas from MIP-GFP-transgenic mice and sorted the beta-cells by fluorescence-activated cell sorting based on their green fluorescence. These studies showed that 2.4 +/- 0.2% (n = 6) of the cells in the pancreas of newborn (P1) and 0.9 +/- 0.1% (n = 5) of 8-wk-old mice were beta-cells. The MIP-GFP-transgenic mouse may be a useful tool for studying beta-cell biology in normal and diabetic animals.     

Timing of Ca2+ response in pancreatic beta-cells is related to mitochondrial mass

The timing and magnitude of calcium response are cell-specific in individual beta-cells. This may indicate that the cells have different roles in the intact islet. It is unknown what mechanisms determine these characteristics. We previously found that the mechanisms setting cell-specific response timing are disturbed in beta-cells from hyperglycemic mice and one of the causes is likely to be an altered mitochondrial metabolism. Mitochondria play a key role in the control of nutrient-induced insulin secretion. Here, we used confocal microscopy with the fluorescent probe MitoTracker Red CMXRos and Fluo-3 to study how the amount of active mitochondria is related to the lag-time and the magnitude of calcium response to 20mM glucose in isolated beta-cells and in cells within intact lean and ob/ob mouse islets. Results show that the mitochondrial mass is inversely correlated with the lag-times for calcium response both in lean and ob/ob mouse beta-cells (r=-0.73 and r=-0.43, respectively, P<0.05). Thus, the state of mitochondria may determine the timing of calcium response.     

Carbon monoxide stimulates insulin release and propagates Ca2+ signals between pancreatic beta-cells

A key question for understanding the mechanisms of pulsatile insulin release is how the underlying beta-cell oscillations of the cytoplasmic Ca2+ concentration ([Ca2+]i) are synchronized within and among the islets in the pancreas. Nitric oxide has been proposed to coordinate the activity of the beta-cells by precipitating transients of [Ca2+]i. Comparing ob/ob mice and lean controls, we have now studied the action of carbon monoxide (CO), another neurotransmitter with stimulatory effects on cGMP production. A strong immunoreactivity for the CO-producing constitutive heme oxygenase (HO-2) was found in ganglionic cells located in the periphery of the islets and in almost all islet endocrine cells. Islets from ob/ob mice had sixfold higher generation of CO (1 nmol.min-1.mg protein-1) than the lean controls. This is 100-fold the rate for their constitutive production of NO. Moreover, islets from ob/ob mice showed a threefold increase in HO-2 expression and expressed inducible HO (HO-1). The presence of an excessive islet production of CO in the ob/ob mouse had its counterpart in a pronounced suppression of the glucose-stimulated insulin release from islets exposed to the HO inhibitor Zn-protoporhyrin (10 microM) and in a 16 times higher frequency of [Ca2+]i transients in their beta-cells. Hemin (0.1 and 1.0 microM), the natural substrate for HO, promoted the appearance of [Ca2+]i transients, and 10 microM of the HO inhibitors Zn-protoporphyrin and Cr-mesoporphyrin had a suppressive action both on the firing of transients and their synchronization. It is concluded that the increased islet production of CO contributes to the hyperinsulinemia in ob/ob mice. In addition to serving as a positive modulator of glucose-stimulated insulin release, CO acts as a messenger propagating Ca2+ signals with coordinating effects on the beta-cell rhythmicity.     

Glucose promotes pancreatic islet beta-cell survival through a PI 3-kinase/Akt-signaling pathway

The concentration of glucose in plasma is an important determinant of pancreatic beta-cell mass, whereas the relative contributions of hypertrophy, proliferation, and cell survival to this process are unclear. Glucose results in depolarization and subsequent calcium influx into islet beta-cells. Because depolarization and calcium (Ca(2+)) influx promote survival of neuronal cells, we hypothesized that glucose might alter survival of islet beta-cells through a similar mechanism. In the present studies, cultured mouse islet beta-cells showed a threefold decrease in apoptosis under conditions of 15 mM glucose compared with 2 mM glucose (P < 0.05). MIN6 insulinoma cells incubated in 25 mM glucose for 24 h showed a threefold decrease in apoptosis compared with cells in 5 mM glucose (1.7 +/- 0.2 vs. 6.3 +/- 1%, respectively, P < 0.001). High glucose (25 mM) enhanced survival-required depolarization and Ca(2+) influx and was blocked by phosphatidylinositol (PI) 3-kinase inhibitors. Glucose activation of the protein kinase Akt was demonstrated in both insulinoma cells and cultured mouse islets by means of an antibody specific for Ser(473) phospho-Akt and by an in vitro Akt kinase assay. Akt phosphorylation was dependent on PI 3-kinase but not on MAPK. Transfection of insulinoma cells with an Akt kinase-dead plasmid (Akt-K179M) resulted in loss of glucose-mediated protection, whereas transfection with a constitutively active Akt enhanced survival in glucose-deprived insulinoma cells. The results of these studies defined a novel pathway for glucose-mediated activation of a PI 3-kinase/Akt survival-signaling pathway in islet beta-cells. This pathway may provide important targets for therapeutic intervention.     

Detection of anti-collagen antibodies by a solid phase radioimmunologic technic

A solid-phase radioimmunoassay using 125I-protein A is described for the detection of antibodies to collagens of different types. The optimal conditions for the adsorption of collagen onto polystyrene microplates, then the incubations with the antiserum and finally with the 125I-protein A have been evaluated. The technique was applied successfully to antisera raised in rabbit, goat, guinea pig and mouse against human type I, II, III, IV, V and bovine type I, II, 1 alpha 2 alpha 3 alpha, X1-X7 collagens.     

Beta-amyloid peptides 1-40betaA and 25-35betaA suppress human amylin-mediated death of RINm5F islet beta-cells with distinct actions on fibril formation

Amyloid deposition is a common feature of Alzheimer's disease and type 2 diabetes related to beta-amyloid peptides (betaA) and human amylin (hA), respectively. Both betaA and hA form aggregates and fibrils and kill cultured cells. To investigate whether betaA and hA display peptide-specific toxicity on cultured islet beta-cells, we examined the effects of (1-40)betaA and (25-35)betaA peptides on hA-mediated cell death and [(125)I-Tyr(37)]hA precipitation. Synthetic hA aggregated in solution and evoked both conformation- and sequence-dependent cell death. While neither (1-40)betaA nor (25-35)betaA was toxic to islet beta-cells, they suppressed hA-evoked cell death in a concentration-dependent and saturable manner. Only (1-40)betaA, but not (25-35)betaA, showed trophic effects on cultured islet beta-cells and inhibited the precipitation of [(125)I]hA caused by hA. These results suggest that (25-35)betaA does not interfere with hA-mediated fibril formation. Suppression of hA-evoked death of cultured pancreatic islet beta-cells by the betaA peptides is likely to occur through a competing interaction at these cells.     

Regulated autophagy controls hormone content in secretory-deficient pancreatic endocrine beta-cells

Endocrine cells are continually regulating the balance between hormone biosynthesis, secretion, and intracellular degradation to ensure that cellular hormone stores are maintained at optimal levels. In pancreatic beta-cells, intracellular insulin stores in beta-granules are mostly upheld by efficiently up-regulating proinsulin biosynthesis at the translational level to rapidly replenish the insulin lost via exocytosis. Under normal circumstances, intracellular degradation of insulin plays a relatively minor janitorial role in retiring aged beta-granules, apparently via crinophagy. However, this mechanism alone is not sufficient to maintain optimal insulin storage in beta-cells when insulin secretion is dysfunctional. Here, we show that despite an abnormal imbalance of glucose/glucagon-like peptide 1 regulated insulin production over secretion in Rab3A(-/-) mice compared with control animals, insulin storage levels were maintained due to increased intracellular beta-granule degradation. Electron microscopy analysis indicated that this was mediated by a significant 12-fold up-regulation of multigranular degradation vacuoles in Rab3A(-/-) mouse islet beta-cells (P 相似文献   

Human transcobalamin II receptor binds to Staphylococcus aureus protein A: implications as to its structure and function

Purified human placental transcobalamin II receptor (TC II-R) dimer of molecular mass 124 kDa bound to Sepharose-linked bacterial immunoglobulin (IgG) binding proteins protein A, protein G, and protein A/G. TC II-R dimer was detected directly, by blotting human placental and rabbit and rat kidney membrane proteins with 125I-protein A, or indirectly, using antiserum to TC II-R or IgG-Fc region and 125I-protein. TC II-R antiserum, but not protein A, protein G, protein A/G, or antiserum to the IgG-Fc region, when added to culture medium of human intestinal epithelial Caco-2 cells or umbilical vein endothelial cells, inhibited ligand binding. However, protein A, protein G, protein A/G, or antiserum to the Fc region inhibited the internalization of the ligand TC II-[57Co]cyanocobalamin. Taken together, these studies strongly suggest TC II-R is an IgG-like molecule that contains an Fc-like region which is important in ligand internalization but not binding.     

Expression and distribution of somatostatin receptor subtypes in the pancreatic islets of mice and rats.

Somatostatin acts on specific membrane receptors (sst(1-5)) to inhibit exocrine and endocrine functions. The aim was to investigate the distribution of sst(1-5) in pancreatic islet cells in normal mice and rats. Pancreatic samples from five adult C57BL/6 mice and Sprague-Dawley rats were stained with antibodies against sst(1-5) and insulin, glucagon, somatostatin, or pancreatic polypeptide (PP). A quantitative analysis of the co-localization was performed. All ssts were expressed in the pancreatic islets and co-localized on islet cells to various extents. A majority of the beta-cells expressed sst(1-2) and sst(5) in mouse islets, while < or =50% in the rat expressed sst(1-5). The expression of sst(1-5) on alpha-cells did not differ much among species, with sst(2) and sst(5) being highly expressed. About 70% of the delta-cells expressed sst(1-4) in the rat pancreas, whereas 50% of the islet cells expressed sst(1-5) in the mouse. Furthermore, 60% of the PP-cells expressed sst(1-5) in the mouse, while the rat islets had lower values. Co-expression with the four major islet hormones varies among species and sst subtypes. These similarities and differences are interesting and need further evaluation to elucidate their physiological role in islets.     

Pancreatic islet immunoreactivity to the Reg protein INGAP.

The Reg-related protein family member INGAP (islet neogenesis-associated protein) is a pleiotropic factor enhancing islet neogenesis, neurite growth, beta-cell protection, and beta-cell function. Using an antibody to the N-termini of INGAP, we have identified that immunoreactivity to INGAP localized to the pancreatic endocrine cells in mouse. INGAP- and insulin-immunoreactive cells are mutually exclusive, with INGAP-immunoreactive cells being preserved after streptozotocin-mediated destruction of beta-cells. Glucagon- and INGAP-immunoreactive cells colocalize, although respective antigen expression occurs in different intracellular locations. These data suggest that INGAP-immunoreactive cells include alpha-cells; however, detection of single INGAP-immunoreactive/glucagon-negative cells indicates that this may not be exclusive. In addition to mouse, detection of islet endocrine cells that were INGAP immunoreactive/glucagon immunoreactive/insulin negative was also observed in islets from human, monkey, and rat. These findings reveal that INGAP and/or related group 3 Reg proteins have a conserved expression in the pancreatic islet.     

G protein-coupled receptor signaling and sphingosine-1-phosphate play a phylogenetically conserved role in endocrine pancreas morphogenesis

During development pancreatic endocrine cells migrate in a coordinated fashion. This migration is necessary to form fully functional islets, but the mechanisms involved remain unknown. Therapeutic strategies to restore β-cell mass and islet functionality by reprogramming endogenous exocrine cells would be strengthened from simultaneous treatments that enhance endocrine cell clustering. We found that endocrine progenitors respond to and regulate G protein-coupled receptor (GPCR) signaling in order to cluster in islets. Rgs4, a dedicated regulator of GPCR signaling, was specifically expressed in early epithelial endocrine progenitors of both zebrafish and mouse, and its expression in the mouse endocrine progenitors was strictly dependent upon Ngn3, the key specification gene of the endocrine lineage. Rgs4 loss of function resulted in defects in islet cell aggregation. By genetically inactivating Gα(i)-mediated GPCR signaling in endocrine progenitors, we established its role in islet cell aggregation in both mouse and zebrafish. Finally, we identified sphingosine-1-phosphate (S1P) as a ligand mediating islet cell aggregation in both species acting through distinct but closely related receptors.     

Effect of intracellular alkalinization on pancreatic islet calcium uptake and insulin secretion.

Microdissected beta-cell-rich pancreatic islets of ob/ob mice were used in studies of the relationship between intracellular pH (pHi) and 45Ca2+ uptake and insulin release. Stepwise increases in extracellular pH (pHo) from 6.80 to 8.00 resulted in a parallel, although less pronounced, elevation of pHi from 7.24 to 7.69. Experimental conditions that alkalinize the islet cell interior, i.e. addition of 5 mM-NH4+, sudden withdrawal of extracellular bicarbonate buffer or increase in pHo, induced insulin secretion in the absence of other types of secretory stimulation (1 mM-D-glucose). Intracellular acidification by lowering pHo below 7.40 or sudden addition of bicarbonate buffer did not induce insulin secretion. The removal of extracellular bicarbonate buffer, increase in pHo from 7.40 to 8.00, or the addition of 5 mM-L-5-hydroxytryptophan or 5 mM-NH4+, which all alkalinize the islet cells and induce insulin secretion, also increased the La3+-non-displaceable 45Ca2+ uptake in the presence of 1 mM-D-glucose. The results suggest that intracellular alkalinization in beta-cells can trigger insulin secretion. Taken together with the fact that D-glucose increases pHi in the islet cells, the results also point to the possibility that alkalinization may be a link in the stimulus-secretion coupling sequence in beta-cells.     

Expression of the human immunodeficiency virus envelope glycoprotein is restricted to basolateral surfaces of polarized epithelial cells.

Polarized epithelial cells exhibit apical (lumenal) and basolateral (serosal) membrane domains that are separated by circumferential tight junctions. In such cells, enveloped viruses that mature by budding at cell surfaces are released at particular membrane domains. We have used a vaccinia virus recombinant to investigate the site of surface expression of the human immunodeficiency virus type 1 envelope glycoprotein in Madin-Darby canine kidney cells. Cells were infected with the vaccinia virus recombinant, and surface expression of the glycoprotein was analyzed by indirect immunofluorescence, 125I-protein A binding, and immunoelectron microscopy. The glycoprotein appeared exclusively at the basolateral surface as early as 2 h postinfection and reached a maximum level at 8 h postinfection. The gp120 glycoprotein was found to be secreted efficiently into culture medium, and this secretion occurred exclusively at the basolateral surface.     

Cell-specific Ca(2+) responses in glucose-stimulated single and aggregated beta-cells

A rise in the cytoplasmic calcium concentration ([Ca(2+)](i)) is a key event for insulin exocytosis. We have recently found that the 'early [Ca(2+)](i) response' in single ob/ob mouse beta-cells is reproduced during consecutive glucose stimulations. It, therefore, appears that the response pattern is a characteristic of the individual beta-cell. We have now investigated if a cell-specific [Ca(2+)](i) response is a general phenomenon in rodent beta-cells, and if it can be observed when cells are functionally coupled. With the use of the fura-2 technique, we have studied the 'early [Ca(2+)](i) response' in single dispersed beta-cells, in beta-cell clusters of different size and in intact islets from the ob/ob mouse during repeated glucose stimulation (20mM). beta-Cells from lean mouse and rat, and intact islets from lean mouse were also investigated. Significant correlations between the first and second stimulation were found for the parameters lag-time for Ca(2+) rise (calculated as the time from start of stimulation of the cell until the first value above an extrapolated baseline), nadir of initial lowering (difference between the baseline and lowest [Ca(2+)](i) value), and peak height (difference between baseline and the highest [Ca(2+)](i) value of the first calcium peak) in single dispersed beta-cells, in 'single beta-cell within a small cluster', in clusters of medium and large size, and in single dispersed beta-cells from lean mouse and rat. The lag-times for Ca(2+) rise and peak heights were correlated within the pairs of stimulation also in intact ob/ob islets. In summary, despite a large heterogeneity of the 'early [Ca(2+)](i) response' among individual cells, the lag-time for [Ca(2+)](i) rise, the nadir of initial lowering and the height of the first peak response can be identified as cell-specific markers in beta-cells.     

A quantitative immunobinding assay for vitamin D-dependent calcium-binding protein (calbindin-D28k) using nitrocellulose filters

A sensitive dot immunobinding assay has been developed for the quantitative determination of vitamin D-dependent calcium-binding protein (calbindin-D28k; CaBP) in rat and human kidney and brain. Protein samples are spotted onto nitrocellulose sheets, fixed, and then rinsed with Tris-buffered saline. The remaining protein binding sites are blocked with bovine serum albumin, gelatin, or nonfat dry milk protein and the filters are then incubated sequentially with antiserum to calbindin-D28k (1:500 dilution) and 125I-protein A (200,000 cpm/ml). After washing, the radioactivity bound to each sample is quantitated by counting in a gamma counter. The sensitivity of the assay is such that 10 ng calbindin-D28k can be accurately quantitated. The highest levels of CaBP were detected in kidney (7.8 +/- 0.5 micrograms/mg protein) and cerebellum (22.1 +/- 1.4 micrograms/mg protein). Ten micrograms calmodulin, lactalbumin, or parvalbumin and 100 micrograms liver extract showed no reactivity in the assay. The assay is precise (intraassay variability, 4.0%) and reproducible (interassay variability, 8.8%). There was good agreement between the data in this assay and the data we obtained using radioimmunoassay (RIA). The assay has several advantages over the RIA. Iodination of pure antigen is not required and it is possible to detect membrane-bound and insoluble antigens using this assay. Also, the antiserum and 125I-protein A solutions can be saved and reused. This assay represents a major modification of the original immunobinding assays which used the less sensitive peroxidase stain. It is also an improvement over previous 125I immunobinding assays which were not quantitative but were used as antigen "spot tests" or which required iodination of the antibody.