Studies on the inhibitory effect of bacitracin on 125I-labelled insulin internalization in the rat hepatocyte

Previous studies have suggested that transglutaminase has a role in the internalization of some polypeptide hormones and is inhibited by the antibiotic, bacitracin. Bacitracin has been used in insulin-receptor studies to inhibit extracellular degradation of ¹²⁵I-labelled insulin. The aim of this study was to investigate bacitracin's effect on ¹²⁵I-labelled insulin-receptor interactions in isolated rat hepatocytes. 1 g/l bacitracin increased cell-associated ¹²⁵I-labelled insulin at 20, 30 and 37°C (P < 0.001, 0.0005 and 0.0005, respectively). At 5 and 15°C (internalization does not occur), bacitracin did not affect cell-associated ¹²⁵I-labelled insulin. The bacitracin effect was concentration dependent, increasing to 2 g/l. Scatchard analysis showed that bacitracin did not alter insulin receptor affinity or number. 1 g/l bacitracin abolished the effect of chloroquine. The increased cell-associated radioactivity with bacitracin was surface-bound in nature. 0.5 g/l bacitracin decreased ¹²⁵I-labelled insulin degradation in hepatocyte suspensions (P < 0.001) and in buffer previously incubated with hepatocytes (P < 0.0005). More ¹²⁵I-labelled insulin remained associated with cells during dissociation studies at 37°C when the buffer contained 1 g/l bacitracin. Label that appeared in the buffer after 60 min was significantly more intact in the presence of bacitracin (P < 0.025). These results suggest that bacitracin retards the internalization of ¹²⁵I-labelled insulin in isolated rat hepatocytes.     

Effect of High Sucrose Feeding on Fat Accumulation in the Male Wistar Rat

High sucrose intake is generally thought to be a risk factor for obesity and insulin resistance. We examined the effects of feeding sucrose on fat accumulation and insulin release in male rats. Six-week-old male Wistar rats were maintained on a high sucrose diet for 4 or 12 weeks. Control rats were fed a diet based on starch. No significant difference in daily caloric intake or weight gain existed between the two dietary groups. There was no difference between the two dietary groups in the gain of abdominal subcutaneous fat (SC) at 4-week. In contrast, rats fed the high sucrose diet had significantly more mesenteric fat (MES) than controls (p<0.01). At 12 weeks, rats fed the high sucrose diet had significantly more SC and MES than controls (SC:p<0.05, MES:p<0.01). Basal immunoreactive insulin (IRI) concentrations in the portal vein (PV) of rats fed the high sucrose diet was significantly higher compared to those of controls (4 wk: p<0.05, 12 wk: p<0.05). No difference between the two dietary groups in basal IRI concentrations in the inferior vena cava (TVC) existed at 4 weeks; whereas at 12 weeks, the basal IRI concentrations in the IV C in rats fed the high sucrose diet were significantly higher than in controls (p<0.05). The mesenteric and subcutaneous fat accumulations were closely related to hyperinsulinemia in the portal vein and inferior vena cava, respectively. Twelve weeks of high sucrose feeding caused accumulation of abdominal adipose tissue with marked hyperinsulinemia and hyperlipidemia. Our study is the first to demonstrate that abdominal fat induced by high sucrose intake in male rats is accompanied by an abnormal metabolic state similar to an insulin-resistant state.     

The influence of vasoactive intestinal polypeptide and cholecystokinin of prolactin release in rat and human monolayer cultures

We have evaluated the effects of the gut-brain peptides, VIP and CCK, on pituitary PRL secretion in monolayer cultures of normal and tumor bearing rodent and human pituitary tissue. In cultures prepared with normal human pituitary tissue obtained from three patients with metastatic breast cancer, VIP at 10^?7M and 10^?9M (but not 10^?11M) significantly (p<.05) increased PRL secretion in the wells by 6 hrs. Similar concentrations of VIP also significantly (p<.05) promoted PRL release from pituitary tissue obtained by transphenoidal hypophysectomy from one of two prolactinoma patients. Dopamine (10^?5M) inhibition of PRL secretion was not affected by 10^?11 to 10^?7M VIP. In contrast to these findings VIP did not significantly influence 6 hr rat PRL release in monolayer cultures of normal or transformed cells (GH₃) with or without the addition of bacitracin (10^?5M).CCK₃₃ significantly (p<.01) increased rat PRL release in human pituitary monolayer cultures at 10^?5M. The more biologically potent CCK₈ significantly (p<.02) increased rat PRL release at a 10-fold lower concentration, 10^?6M. In contrast, CCK₈ 10^?8 to 10^?6M, did not significantly influence PRL release from normal human pituitary cultures or from tumor bearing human (prolactinoma) and rat (GH₃) cultures. We conclude that 1) the gut-brain peptides, VIP and CCK, can directly stimulate pituitary PRL release and 2) VIP may be a physiologic prolactin releasing factor in man.     

Receptor-mediated insulin degradation and insulin-stimulated glycogenesis in cultured foetal hepatocytes.

Insulin-stimulated glycogenesis and insulin degradation were studied simultaneously at 37 degrees C in cultured foetal hepatocytes grown for 2-3 days in the presence of cortisol. Degradation of cell-associated insulin, as measured by trichloroacetic acid precipitation, was significant after 4 min in the presence of 1-3 nM-125I-labelled insulin. This process became maximal (30% of insulin degraded) after 20 min, a time when binding-state conditions were achieved. No insulin-degradative activity was detected in a medium that had been exposed to cells. At steady-state, the appearance of insulin degradation products in the medium was linearly dependent on time (1.5 fmol/min per 10(6) cells at 1nM-125I-labelled insulin). Chloroquine (3-50 microM), bacitracin (0.1-10 mM) and NH4Cl (1-10 mM) inhibited insulin degradation as soon as this became detectable and caused an increase in the association of insulin to hepatocytes after 20 min. Lidocaine and dansylcadaverine had similar effects, whereas N-ethylmaleimide, aprotinin, phenylmethanesulphonyl fluoride and leupeptin were found to be ineffective. Chloroquine, and also bacitracin, at concentrations that inhibited insulin degradation, decreased the insulin-stimulated incorporation of [14C]glucose into glycogen over 2 h. This effect of chloroquine was specific, since it did not modify the basal glycogenesis, or the glycogenic effect of a glucose load in the absence of insulin. It therefore appears that the receptor-mediated insulin degradation (or some associated pathway) is functionally related to the glycogenic effect of insulin in foetal hepatocytes.     

Taurine regulates insulin release from pancreatic beta cell lines

Background

Pancreatic β-cells release insulin via an electrogenic response triggered by an increase in plasma glucose concentrations. The critical plasma glucose concentration has been determined to be ~3 mM, at which time both insulin and GABA are released from pancreatic β-cells. Taurine, a β-sulfonic acid, may be transported into cells to balance osmotic pressure. The taurine transporter (TauT) has been described in pancreatic tissue, but the function of taurine in insulin release has not been established. Uptake of taurine by pancreatic β-cells may alter membrane potential and have an effect on ion currents. If taurine uptake does alter β-cell current, it might have an effect on exocytosis of cytoplasmic vesicle. We wished to test the effect of taurine on regulating release of insulin from the pancreatic β-cell.

Methods

Pancreatic β-cell lines Hit-TI5 (Syrian hamster) and Rin-m (rat insulinoma) were used in these studies. Cells were grown to an 80% confluence on uncoated cover glass in RPMI media containing 10% fetal horse serum. The cells were then adapted to a serum-free, glucose free environment for 24 hours. At that time, the cells were treated with either 1 mM glucose, 1 mM taurine, 1 mM glucose + 1 mM taurine, 3 mM glucose, or 3 mM glucose + 1 mM taurine. The cells were examined by confocal microscopy for cytoplasmic levels of insulin.

Results

In both cell lines, 1 mM glucose had no effect on insulin levels and served as a control. Cells starved of glucose had a significant reduction (p<0.001) in the level of insulin, but this level was significantly higher than all other treatments. As expected, the 3 mM glucose treatment resulted in a statistically lower (p<0.001) insulin level than control cells. Interestingly, 1 mM taurine also resulted in a statistically lower level of insulin (p<0.001) compared to controls when either no glucose or 1 mM glucose was present. Cells treated with 1 mM taurine plus 3 mM glucose showed a level of insulin similar to that of 3 mM glucose alone.

Conclusions

Taurine administration can alter the electrogenic response in β-cell lines, leading to a change in calcium homeostasis and a subsequent decrease in intracellular insulin levels. The consequence of these actions could represent a method of increasing plasma insulin levels leading to a decrease in plasma glucose levels.

     

Cryopreservation of mouse pancreatic islets: effects of different glucose concentrations in the post-thaw culture medium on islet recovery

It was the aim of this study to investigate the influence of the glucose concentration of the post-thaw culture medium on islet B-cell survival after cryopreservation by the combined assessments of islet recovery, islet DNA and insulin contents, and insulin release. Collagenase isolated mouse islets were kept in culture for 3 days in the presence of 11.1 mM glucose and then transferred to freezing ampoules containing Hanks' solution supplemented with 10% calf serum and 2 M dimethyl sulfoxide. After a 20-min incubation at 0 degrees C the islets were cooled at a rate of 25 degrees C/min to -70 degrees C and subsequently plunged into liquid nitrogen. After 2 hr the frozen islets were rapidly thawed at 37 degrees C, transferred to culture dishes, and cultured for another 3 days in the presence of 2.8, 5.6, 11.1, 16.7, or 28 mM glucose. Nonfrozen control islets were treated identically after a preceding 3-day culture at 11.1 mM glucose. The percentage recovery of cryopreserved islets was decreased compared to that of nonfrozen islets, but was increased when higher glucose concentrations were used in the post-thaw culture medium. Since the DNA content of the cryopreserved islets was slightly decreased, the overall survival rate of the cryopreserved B-cells, when cultured at the higher glucose concentrations after thawing, was found to be about 75%. The insulin content of the cryopreserved islets was decreased but the glucose-stimulated insulin release was essentially the same as that of the nonfrozen islets.(ABSTRACT TRUNCATED AT 250 WORDS)     

3H-cyclosporine internalization and secretion by human fetal pancreatic islets

Human fetal pancreatic islets were isolated from 16- to 20-week-old fetuses by a collagenase technique and cultured 48 hr in RPMI 1640 containing 10% human adult serum and unlabeled 0 to 5 micrograms cyclosporine A (CsA)/ml. Insulin secretory capacity of human fetal islets was expressed as a fractional stimulatory ratio FSR = F2/F1 of the fractional secretion rates during two successive 1 hr static incubations first with 2 mM glucose (F1) to stabilize secretion followed by maximal stimulus, i.e., 25 mM glucose plus 10 mM L-leucine and 10 mM L-arginine (F2). Unlabeled CsA at the above concentrations had no significant effects on the insulin secretory capacity expressed by FSR-values. Studies of net uptake of 3H-CsA by islets cultured for varying periods up to 40 hr and expressed as picomole 3H-CsA per picomole islet insulin content demonstrated that uptake rate was slow and did not reach isotopic equilibrium over the 40 hr of culture. When isolated fetal islets were cultured for 48 hr in the presence of 3H-CsA and varying concentrations of unlabeled CsA it was found during two successive 1 hr static incubations that fetal islets secrete insulin concomitantly with 3H-CsA following maximal stimulus for secretion. An optimal secretory molar ratio of 3H-CsA to insulin of 4.0 +/- 1.3 (n = 7) was found after islets were cultured 48 hr in the presence of a saturating 2.128 micrograms 3H-CsA per milliliter culture medium. In three successive 30-min static incubations of 3H-CsA loaded islets, first with low glucose, followed by high glucose plus L-arginine and L-leucine, and finally with high glucose plus L-arginine and L-leucine and 10 mM theophylline, the proportional fractional secretion rates of insulin and 3H-CsA were of the same magnitude. It is concluded that human fetal pancreatic islets during 48 hr of culture in the presence of pharmacologically relevant concentrations of CsA can internalize the drug, which is compartmentalized and concomitantly secreted with insulin following maximal stimuli. Transplanted human fetal islets utilized as delivering units for CsA could be beneficial for the induction of immunotolerance to allografted fetal islets.     

Factors involved in supporting the growth and steroidogenic functions of bovine adrenal cortical cells maintained on extracellular matrix and exposed to a serum-free medium

Bovine adrenal cortex cells maintained on extracellular matrix (ECM)-coated dishes will proliferate actively when serum is replaced by HDL (25 micrograms protein/ml), insulin (10 ng/ml), and FGF (100 ng/ml). The cells have an absolute requirement for HDL in order to survive and grow. The omission of insulin, FGF, or both results in a slower growth rate and lower final cell density of the cultures. A requirement for transferrin (1 microgram/ml) becomes apparent only when cells have been grown for at least four generations in the absence of serum. Early passage (P1-P3) bovine adrenal cortex cells cultured in serum-free medium responded to ACTH (10(-8)M) with increased 11-deoxycortisol production; this effect was not observed in later passage cells (P7-P15). The cells' ability to utilize LDL-derived cholesterol and to respond to db cAMP (1mM) by increased steroid release was preserved in cells cultured for over 60 generations in the serum-free medium. HDL, although also able to increase steroid production in early-passage cultures exposed to ACTH or to ACTH and dibutyryl cyclic AMP (db cAMP), was 10 fold less potent than LDL. It did not support steroidogenesis in cultures not exposed to these trophic agents. The life span of bovine adrenal cortex cells grown in the serum-free medium on fibronectin (FN)- versus ECM-coated dishes was compared. Cells seeded in serum-containing medium and grown in serum-free medium had a life span of 34 versus 60 generations when maintained on fibronectin- or ECM-coated dishes, respectively. Cells seeded in the complete absence of serum in the serum-free medium on ECM- or fibronectin-coated dishes could be passaged for 26 or 13 generations, respectively. While FGF was an absolute requirement for cells cultured on fibronectin-coated dishes, it was not required when cells were maintained on ECM. These observations demonstrate the influence of the ECM not only in promoting cell growth and differentiation but also on the life span of cultured cells.     

Intracellular depletion of insulin by oleate is due to an inhibited synthesis and not to an increased secretion

In the polyclonal rat pancreatic beta-cell line INS-1, immunoreactive insulin (IRI, insulin and its precursors) and C-peptide (surrogate marker for mature insulin) were quantified after a 1-h incubation at 16.7 mM glucose with or without oleate. Oleate caused a 20% decrease (P 相似文献   

Continuous production of bacitracin by immobilized living whole cells of Bacillus sp.

Whole cells of Bacillus sp., a bacitracin-producing bacteria, were immobilized in polyacrylamide gel. The continuous production of bacitracin by an immobilized whole-cell-containing air-bubbled reactor was examined with 0.5% peptone solution. The bacitracin productivity (28 units/ml/hr) obtained with this system was higher than that with a batch system. The effluent bacitracin concentration increased with increasing aeration rate and reached a steady-state maximum above the aeration rate of 3.0 liter/min. A high bacitracin productivity was retained for at least eight days when the gel was washed with sterilized saline at a flow rate of 250 ml/hr for 2 hr once a day. The half-life of the immobilized whole-cell system was about 10 days. Bacitracin productivity by the immobilized whole-cell reactor was higher than that by a conventional continuous fermentation process at high dilution rates.     

Development of IVM-IVF produced 8-cell bovine embryos in simple,serum-free media after conditioning or Co-culture with buffalo rat liver cells

Development of 8-cell bovine embryos derived from in vitro matured/in vitro fertilized (IVM/IVF) oocytes was evaluated in two simple, serum-free media (CZB and SOM) with buffalo rat liver cells co-culture (BRLC) or after conditioning compared to a commonly used, serum-supplemented complex medium TCM-199. In a 3 x 4 factorial design, 578 eight-cell embryos were randomly assigned to 12 treatment groups. The factors were: first, type of culture medium (M199/FBS, CZBg and SOM), and second, the use of BRLC (as co-culture or to condition media for 24 hr and 48 hr) and unconditioned media. Development to morula was not affected by the type of medium, but co-culture and 48 hr conditioning within media type resulted in better development when compared to the 24-hr conditioned or unconditioned groups. Blastocyst development in SOM (38.9%) was different (P < 0.05) than in CZBg (46.6%) and M199/FBS (48.7%) and was lowest in the unconditioned group (27.8%) followed by 24 hr conditioned (33.3%), 48 hr (56.3%), and co-culture (59.6%). No blastocyst expansion was observed with unconditioned media and 24 hr conditioned SOM. Significant differences (P < 0.05) were found among all treatment groups except the co-culture and 48-hr conditioned groups. Hatching occurred only with co-culture and 48-hr conditioned groups of M199/FBS and CZBg media. These data show that CZB with glucose conditioned by BRLC monolayers for 48 hr can support the development of IVM/IVF produced bovine embryos to blastocyst compared to culture in TCM-199 with serum. © 1994 Wiley-Liss, Inc.     

Characterization of insulin binding to slices of slow and fast twitch skeletal muscles in the rabbit

Insulin binding was studied in rabbit semimembranosus proprius and psoas major muscles composed of slow-twitch oxidative (SO) and fast-twitch glycolytic (FG) fibers, respectively. For this purpose, we developed a technique using cryostat microtome muscle slices. Degradation of 125(I)-insulin during the incubation period was prevented by the addition of 1 mM bacitracin in the buffer. Specific binding to muscle slices plateaued by the 24 hrs. of incubation at 4 degrees C. It increased as a function of the amount of muscle, with a maximum binding occurring at about 5 mg of muscle slices. Triton X-100 has been shown to increase specific binding from a critical concentration of 10(-4) M with a maximum effect occurring at 3.3 10(-4) M. Under this condition, the binding was specific since displacement studies showed no inhibition of 125(I)-insulin binding by GH, HCG, ACTH and glucagon, whereas half maximal inhibition was achieved using 5 10(-10) M insulin, 3 10(-9) M IGF1 and 2 10(-8) M proinsulin. The analysis of the binding data yielded curvilinear Scatchard plots. The number of high affinity insulin receptors was higher in the SO muscle than in the FG muscle (4.3 +/- 0.7 vs 0.7 +/- 0.2 fmol/mg fresh muscle; P less than 0.001) with similar high affinity dissociation constants (Kd = 1.5 10(-10) M). Analogous results were obtained using muscle microsomal fractions. The differences in insulin binding might be related to the more intense metabolism of SO fibres which contract more often than FG fibres in vivo.     

Evidence of the lack of receptor-mediated insulin degradation in human cultured lymphocytes (RPMI-1788 line)

We studied insulin degradation in human cultured lymphocytes (RPMI-1788 line) with a small but significant number of lysosomes under the electron microscope. Insulin degradation determined by the TCA solubility method was 64.6 +/- 1.2% (mean +/- SEM) at a trace concentration after the incubation with 2.0 x 10(7) cells (4.0 x 10(7) cells/ml) for 60 min at 37 degrees C. Because insulin degradation was 54.6 +/- 7.0% in the cell-free buffer in which 2.0 x 10(7) cells were previously incubated, most of the insulin was degraded outside of the cells. Gel filtration of the radioactive materials also revealed that most of the labeled insulin in the medium was degraded, and the main peak of the cell-associated radioactivities was intact labeled insulin. Chloroquine, a lysosomotropic agent, failed not only to increase insulin binding but also to decrease the insulin degradation. Other lysosomal protease inhibitors, antipain and leupeptin had also no effect on insulin degradation. In contrast, bacitracin (500 micrograms/ml) significantly decreased the insulin degradation analyzed by TCA solubility, receptor-rebinding, and the gel filtration method. These results suggest that insulin molecules are degraded by the enzymes leaked from the cells. The non-receptor mediated process, which is the bacitracin sensitive pathway, might be a general mechanism of insulin degradation in human cultured lymphocytes in vitro.     

The effects of dexamethasone on metabolic activity of hepatocytes in primary monolayer culture

Summary The effects of dexamethasone on multiple metabolic functions of adult rat hepatocytes in monolayer culture were studied. Adult rat liver parenchymal cells were isolated by collagenase perfusion and cultured as a primary monolayer in HI/WO/BA, a serum free, completely defined, synthetic culture medium. Cells inoculated into the culture medium formed a monolayer within 24 hr. Electron microscopy showed that the cells in primary culture had a fine structure identical to liver parenchymal cells in vivo, including the observation of desmosomes and bile canaliculi in intercellular space. There was significant gluconeogenesis by the cell 24 hr postinoculation but it had decreased markedly by 48 hr. There was a marked induction of tyrosine aminotransferase (TAT) by dexamethasone, which was maintained for up to 72 hr postinoculation of cells. The transport of α-aminoisobutyric acid into the cells in monolayer culture was stimulated by dexamethasone and was dependent on the concentration of dexamethasone. Albumin synthesis and secretion by the cells was measured by a quantitative electroimmunoassay. Albumin production was shown to increase linearly over an incubation period of 24 to 48 hr postinoculation. Dexamethasone depressed the albumin synthesis. The effects of dexamethasone are slow, and at times require more than 6 hr to show variation from the control, indicating that dexamethasone is not a single controlling hormone. Possibly it functions in a cooperative and coordinating role in the regulation of cell metabolism. This work was performed during Dr. Yamada's tenure as a Postdoctoral Research Fellow of the American Heart Association, Oklahoma Affiliate, and was supported in part by NIH Research Grant HL 18178 awarded to Thomas F. Whayne, Jr., M.D., Ph.D.     

Primary monolayer cultures of adult rat liver parenchymal cells suitable for study of the regulation of enzyme synthesis

Summary Parenchymal cells from adult rat liver which had been fully regenerated were isolated and cultured in nonproliferating monolayers in vitro. The optimum conditions for attachment of these cells to Falcon plastic dishes were determined. When approximately 1.0×10⁵ nuclei per cm² suspended in Ham's F-12 medium with 0.5 μg of insulin per ml and 25% fetal calf serum were incubated at 37°C for 24 hr, about 50% became attached and contiguous. When the above medium was supplemented with synthetic buffers 2-(N-morpholino) ethanesulfonic acid (MES) andN-tris (hydroxymethyl) methyl-2-aminoethanesulfonic acid (TES), the presence of 15% fetal calf serum also allowed an attachement effiency of 50%. Tyrosine aminotrasferase activity in the cells was elevated when the culture medium was supplemented with hydrocortisone or dexamethasone. The largest increases were observed after 72 hr of culture. Cycloheximide prevented the increase. Presented in part at the 24th Annual Meeting of the Tissue Culture Association, Boston, Mass. June 4 to 7, 1973. The work was supported in part by National Cancer Institute Grants CA-51304-01 (R. J. B.) and CA-07175. P. R. W. was a Damon Runyon Memorial Fund Postdoctoral Fellow.     

Binding and internalization of VIP in rat intestinal epithelial cells.

We have prepared villous cells from the jejunum of the rat small intestine and studied the effects of divalent cations and bacitracin on the binding and internalization of VIP. Villous epithelial cells (4 x 10(6) cells/ml) were suspended in a Hepes-NaCl buffer with 1.0% BSA, (pH 7.4) and the cells were incubated for varying periods of time with 125I-VIP at 24 degrees C. Specific binding of radiolabeled VIP was maximal within 10 min (10%) and slowly declined to 9.0 percent after 30 min. In the presence of 1.0 mg/ml bacitracin, however, maximal specific binding of VIP was only 2.7 percent (P less than or equal to 0.001). The addition of CA2+ or Mg2+ to the buffer significantly decreased binding of VIP in a concentration dependent manner. At 8.0, 4.0, 2.0 and 1.0 mM Ca2+, binding of 125I-VIP decreased by 70, 60, 40 and 25 percent, whereas in the presence of the same concentrations of Mg2+ binding was decreased to 50, 38, 25 and 10 percent (P less than or equal to 0.01). To determine if epithelial cells internalize VIP, we bound 125I-VIP to villous cells and then differentiated surface-bound and internalized radioactivity by treating with trypsin (150 micrograms/ml). Surface bound radioligand was the same at both 24 and 4 degrees C (5.3%), while internalized 125I-VIP was 4.0% at 24 degrees C compared to only 1.0% at 4 degrees C (P less than or equal to 0.001). At 24 and 4 degrees C, both Ca2+ (4.0 mM) and Mg2+ (8.0 mM) decreased surface bound radioligand by 60 percent (P less than or equal to 0.01) and lowered internalized radioactivity. These data demonstrate that (1) bacitracin decreases the binding of VIP to small intestinal epithelial cells, (2) both Ca2+ and Mg2+ affect the binding of VIP to its surface receptor and (3) VIP is internalized into epithelial cells.     

Pyridine nucleotide synthesis by rat adipose tissue in vitro

The synthesis of NAD and NADP by rat adipose tissue was measured in vitro. Nicotinamide-7-(14)C and NaH(2)(32)PO(4) were incorporated together into NAD with a (32)P/(14)C ratio of 1.82 and nicotinic-7-(14)C acid and NaH(2)(32)PO(4) with a ratio of 1.94. Nicotinic acid stimulated, by 90%, lipogenesis from glucose-U-(14)C by rat adipose tissue in vitro. Glucose plus insulin and refeeding for 48 hr after a 48 hr fast markedly increased the incorporation of nicotinic-7-(14)C into NAD in rat epididymal fat pads in vitro, but neither fructose, L-glutamine, nor insulin alone increased the synthesis of NAD in this tissue. Glucose-1-(14)C, ribose-1-(14)C, and to a greater extent glucose-6-(14)C are incorporated into the NAD of rat adipose tissue. Fasting followed by refeeding sharply increased the radioactivity of NAD-(14)C formed from glucose-1-(14)C and glucose-6-(14)C but not from ribose-1-(14)C. Increasing the ribose concentration from 2 mM to 10 mM increased its incorporation into adipose tissue NAD twofold. The nicotinic-7-(14)C acid incorporation into NAD increased over the 1st hr of incubation and remained constant for the next 3 hr. The concentration of NAD in the fat pads showed a similar response to the time of incubation. NADP concentrations increased over the entire 4 hr incubation period as did the incorporation of nicotinic-7-(14)C acid into NADP. The results of this study suggest that NAD is synthesized de novo by rat adipose tissue in vitro and that this synthesis is increased by factors which stimulate lipogenesis.     

Induction of insulin release in fibroblasts transfected with genomic rat islet DNA

L cells (tk-) were cotransfected with total genomic rat islet DNA and a plasmid containing thymidine kinase gene (ptk). Transfectants were tested for their ability to release insulin into the medium. At least 10% of the colonies contained immunoreactive insulin (IRI) during the initial two weeks. The insulin secreted competed linearly with rat insulin in RIA, the majority of the insulin antigenicity comigrating with rat insulin on G-50 Sephadex chromatography. With continuing propagation the IRI activity diminished; however 3 selected cultures demonstrated increased secretion of IRI following stimulation with glucose. These findings indicate that glucose-induced insulin secretion can be obtained in non-beta cells; however the frequency of success was below one stable transfection for every 5 X 10(8) Ltk- cells exposed to the transfection procedure.     

The development of a homologous teleost insulin radioimmunoassay and its use in the study of adrenaline on insulin secretion from isolated pancreatic islet tissue of the rainbow trout, Salmo gairdinerii (R.)

A homologous teleost insulin radioimmunoassay (RIA) employing bonito insulin RIA components is described. The RIA sensitivity and specificity was sufficient to measure endogenous immunoreactive insulin (IRI) levels in trout serum, pancreatic islet tissue extract and in vitro culture medium. Adrenaline at 10(-6)M evoked a marked stimulation of basal insulin release from isolated islets; whereas adrenaline at 10(-10)M evoked an inhibition of basal insulin release.     

PTH release stimulated by high extracellular potassium is associated with a decrease in cytosolic calcium in bovine parathyroid cells

We employed the calcium (Ca⁺⁺)-sensitive, intracellular dye QUIN-2 to examine the role of cytosolic Ca⁺⁺ in the stimulation of PTH release by high extracellular potassium (K⁺) concentrations. Addition of 55 mM KCl to cells incubated with 115 mM NaCl and 5 mM KCl lowered cytosolic Ca⁺⁺ at either low (0.5 mM) extracellular Ca⁺⁺ (from 194±14 to 159±9 nM, p<.01, N=6) or high (1.5 mM) extracellular calcium (from 465±38 to 293±20 nM, p<.01, N=10). This reduction in cytosolic Ca⁺⁺ was due to high K⁺$\text{per}\text{se}$ and not to changes in tonicity since addition of 55 mM NaCl was without effect while a similar decrease in cytosolic Ca⁺⁺ occurred when cells were resuspended in 60 mM NaCl and 60 mM KCl. PTH release was significantly (p<.01) greater at 0.5 and 1.5 mM Ca⁺⁺ in QUIN-2-loaded cells incubated with 60 mM NaCl and 60 mM KCl than in those exposed to 115 mM NaCl and 5 mM KCl. In contrast to most secretory cells, therefore, stimulation of PTH release by high K⁺ is associated with a decrease rather than an increase in cytosolic Ca⁺⁺.