Effect of ultrasound treatment on the extraction of insulin

Insulin production requires a prolonged extraction process. An ultrasound method of insulin extraction was developed to increase efficiency. Application of ultrasound resulted in a significant increase in the extraction process as a result of pancreas tissue dispergation, destruction of the pancreas cells, intensive mixing, separation of particles, and increase in the interphase pancreas-extractive medium. Optimal technological parameters of insulin extraction were established: ultrasound frequency, 19.5 kHz, specific intensity of ultrasound, 3.3 W/cm(2); time of ultrasound exposure, 5-10 min; and influence of cavitation process. Effectiveness of insulin extraction depends on the properties of the extractive medium. Optimal conditions were pH, 1.6-1.7, concentration of alcohol, 75%, temperature of extractive mixture, 13-17 degrees C; ratio of ground pancreas to liquid extractive medium, 1 : 3.     

Insulin secretion and islet endocrine cell content at onset and during the early stages of diabetes in the BB rat: effect of the level of glycemic control.

Although it is agreed that autoimmune destruction of pancreatic islets in diabetic BB rats is rapid, reports of endocrine cell content of islets from BB diabetic rats at the time of onset of diabetes vary considerably. Because of the rapid onset of the disease (hours) and the attendant changes in islet morphology and insulin secretion, it was the aim of this study to compare islet beta-cell numbers to other islet endocrine cells as close to the time of onset of hyperglycemia as possible (within 12 h). As it has been reported that hyperglycemia renders the beta cell insensitive to glucose, the early effects of different levels of insulin therapy (well-controlled vs. poorly controlled glycemia) on islet morphology and insulin secretion were examined. When measured within 12 h of onset, insulin content of BB diabetic islets, measured by morphometric analysis or pancreatic extraction, was 60% of insulin content of control islets. Despite significant amounts of insulin remaining in the pancreas, 1-day diabetic rats exhibited fasting hyperglycemia and were glucose intolerant. The insulin response from the isolated perfused pancreas to glucose and the glucose-dependent insulinotropic hormone, gastric inhibitory polypeptide (GIP), was reduced by 95%. Islet content of other endocrine peptides, glucagon, somatostatin, and pancreatic polypeptide, was normal at onset and at 2 weeks post onset. A group of diabetic animals, maintained in a hyperglycemic state for 7 days with low doses of insulin, were compared with a group kept normoglycemic by appropriate insulin therapy. No insulin could be detected in islets of poorly controlled diabetics, while well-controlled animals had 30% of the normal islet insulin content.(ABSTRACT TRUNCATED AT 250 WORDS)     

Structure and function of human fetal endocrine pancreas before and after cryopreservation

Human fetal pancreatic glands obtained from 31 consecutive prostaglandin-induced abortions were examined with respect to light microscopic structure and insulin content and release before and after cryopreservation. The crown-heel lengths of the fetuses ranged from 12 to 34 cm. Minced pancreatic fragments about 2 mm³ in size were cultured overnight in RPMI 1640 medium plus 10% fetal calf serum. The explants were incubated at 0 °C for 20 min in Hanks' solution containing 1 M Me₂SO and subsequently cooled at 0.3 °C/min to ?70 °C before rapid quenching in liquid nitrogen. After storage for 4–150 days at ?196 °C the pancreatic fragments were rapidly thawed and suspended in RPMI 1640 (10% calf serum) for another overnight culture.After cryopreservation there was some morphological deterioration of the fetal pancreas. Before cryopreservation 13 of the fetal glands responded with a significant insulin release to an acute glucose plus theophylline challenge, while after cryopreservation 16 glands responded.Although cryopreservation lowered the insulin response there was a strong statistical correlation between the response obtained before and after freezing (P < 0.001). No correlation could be demonstrated between the insulin response and crown-heel length either before or after freezing. There was no obvious effect of cryopreservation on the pancreatic insulin content which showed a significant correlation with the crown—heel length both before and after freezing.It is concluded that cryopreservation of human fetal endocrine pancreas preserves the viability of the B cells. These observations provide a basis for further exploration of the suitability of human fetal pancreas for clinical transplantation.     

NIDDM发病前后中国地鼠胰岛和肝脏细胞GLUT的变化研究

用胶原酶法分离胰岛细胞、超速离心法提取中国地鼠胰岛和肝脏细胞膜蛋白,ＳＤＳ电泳、ＷｅｓｔｅｒｎＢｌｏｔｔｉｎｇ分离ＧＬＵＴ后,应用ＧＬＵＴ２抗体免疫结合法测定ＧＬＵＴ的含量与分子量,同时测定了动物血糖、尿糖和血浆胰岛素的含量、显微镜下直接计数了胰岛细胞总数。结果表明：ＮＩＤＤＭ发病后,自发ＮＩＤＤＭ中国地鼠胰岛细胞ＧＬＵＴ含量减少,与ＧＬＵＴ２抗体反应明显减弱,但肝脏ＧＬＵＴ无明显变化。胰岛细胞总数发病前后大体一致。而血糖、尿精及血浆胰岛素浓度明显升高。     

Purification and functional characterization of pancreatic insulin from camel (Camelus dromedarius)

Large-scale production of insulin still represents the key step in helping diabetic patients throughout the world. Many species and approaches have been used for the production of insulin. In this study, we purified and characterized for the first time pancreatic insulin from the Arabian camel (Camelus dromedarius) using a modified acid-alcohol extraction method. After extraction insulin was purified using a one-step gel filtration on a Sephadex G-50 column leading to a purification yield of 80 mg/kg (20%) of camel pancreas. The purity of camel insulin was assessed by SDS–PAGE and HPLC using insulin from human, bovine and porcine as standards. Molecular weight was determined for purified camel insulin as 5800 Daltons and its amino acid composition is similar to that known for other species. The functional characterization of purified crude camel insulin was demonstrated in vitro by positive competition by radioimmunoassay and in vivo showing camel insulin inducing acute hypoglycaemia in mice. Together, our study reports for the first time the successful purification of functional insulin from camel pancreas with similar properties compared to other insulin species. This is of great interest given that the camel represents considerable economic worth in many countries.     

Maternal training during lactation modifies breast milk fatty acid composition and male offspring glucose homeostasis in rat

The perinatal exposome can modify offspring metabolism and health later in life. Within this concept, maternal exercise during gestation has been reported modifying offspring glucose sensing and homeostasis, while the impact of such exercise during lactation is little-known. We thus aimed at evaluating short- and long-term effects of it on offspring pancreatic function, assuming a link with changes in breast milk composition. Fifteen-week-old primiparous female Wistar rats exercised during lactation at a constant submaximal intensity (TR) or remained sedentary (CT). Male offspring were studied at weaning and at 7 months of age for growth, pancreas weight, glycemia and insulin responses. Milk protein content was determined by the bicinchoninic acid assay (BCA colorimetric method), and lipid content and fatty acid composition by gas chromatography. Mature milk from TR rats contained significantly less saturated (?7 %) and more monounsaturated (+18 %) and polyunsaturated (PUFA +12 %) fatty acids compared to CT rats, with no difference in total lipid and protein concentrations. In offspring from TR vs CT mothers, fasting glycemia was lower, pancreas weight was higher with a lower insulin content (?37 %) at weaning. Such outcomes were correlated with milk PUFA levels and indices of desaturase or elongase activities. These effects were no longer present at 7 months, whereas a more efficient muscle insulin sensitivity was observed. Maternal training during lactation led to a specific milk phenotype that was associated with a short-term impact on glucose homeostasis and pancreatic function of the male offspring.     

Copper deficiency in rats increases pancreatic enkephalin-containing peptides and insulin

Free enkephalins (enk) and higher molecular weight enkephalin-containing peptides (enk-c-p) are present in the endocrine pancreas of rats, presumably in B cells. To determine whether these opioid peptides show dynamic alterations as insulin content of pancreas changes, we utilized a copper deficient rat model, in which the exocrine pancreas atrophies and the endocrine pancreas is “intact” and insulin (IRI) content increases. Dietary copper deficiency (−C) was produced in weanling male rats for 4 and 7 weeks. The deficient and copper supplemented (+C) groups were further subdivided to receive all dietary carbohydrate as either 62% fructose (F) or 62% starch (S). −CF rats showed the most severe deficiency. After 7 weeks, total units of pancreatic IRI in −CF were 7.5, +CF 2.1, −CS 7.9 and in +CS 2.8 (p<0.001). Pancreatic content of Met⁵- and Leu⁵-enk was measured in extracts which were purified on C-18 Seppaks with and without prior treatment with trypsin and carboxypeptidase B. −C animals showed progressive, significant increases in pancreatic content of Leu-enk-c-p, with a decrease in free Leu- and Met-enk (p<0.02-0.01). The pancreatic findings are compatible with a co-localization of enkephalins and insulin in the endocrine pancreas and are suggestive of co-regulation.     

Organ Culture of Foetal Rat Pancreas

The differentiation and growth of the foetal rat pancreas (20 days postcoitum) was studied in parabiotic organ culture with foetal adrenal tissue. In such co-cultures, characteristic pancreatic morphology was preserved and further acinar cell differentiation was fostered. Acinar cells continued to represent about 65% of the total explant volume following short-term incubation. The selective islet cell proliferation, previously observed in control pancreatic explants cultured alone, did not occur when adrenals were co-cultured. In addition, the amylase content of the incubation media and of the explanted pancreatic tissue remained high with adrenal co-culture, while the insulin content of the media and of the explanted tissue was markedly suppressed when compared to control pancreatic explants cultured alone. The effects of the adrenal in maintaining the differentiated acinar component of the pancreas and suppressing media insulin concentration diminished over extended incubation. The addition of adrenals to culture of foetal pancreatic explants after 6 days of control culture (at a time when differentiated acinar cells were not identifiable in the explant) did not result in redifferentiation of the acinar component, but did markedly depress media insulin content. Removal of adrenals after 4 days of co-culture resulted in an immediate rise in media insulin concentration and a rapid decline in pancreatic acinar mass. An adrenal-exocrine pancreatic axis is proposed and it is suggested that foetal adrenal secretions may play an important role in the development of the exocrine pancreas in vivo as well as in vitro.     

Changes in individual rates of pancreatic enzyme and isoenzyme biosynthesis in the obese Zucker rat.

Both alterations of enzyme content and a markedly decreased secretory response to selected physiological stimuli have been demonstrated previously in the pancreas of the obese Zucker rat. The purpose of the present investigation was to determine the degree to which alterations of enzyme content could be attributed to changes in enzyme biosynthesis. Amylase content of obese rats was decreased by 50%, whereas lipase and trypsinogens were significantly increased. However, the decrease in amylase content was less than might have been predicted from the rate of amylase biosynthesis (80% decrease), and the increases in content of trypsinogen(s) and lipase were greater than would have been predicted from alterations in the absolute rates of biosynthesis. In view of the rapid turnover of pancreatic enzymes under normal conditions, it seems probable that a markedly decreased secretory response to various stimuli leads to an increased content of some enzymes in the pancreas of the obese rat. Ciglitazone treatment, which decreases insulin resistance in obese animals and leads to normalization of glucose metabolism in their pancreatic tissue, restored the enzyme-synthesis rates towards normal, showing that the abnormalities of enzyme synthesis were linked to the insulin resistance rather than to the obese genotype itself. Lipid inclusion bodies were found in acinar cells of obese rats. These bodies have previously been described in acinar cells of starved animals, which, in common with the acinar tissue of the obese Zucker rat, have decreased glucose metabolism.     

Insulin gene expression pattern in rat pancreas during the estrous cycle.

Sex steroid hormones influence insulin homeostasis and glucose metabolism, estradiol (E2) and progesterone (P4) induce changes in both fasting and postprandial insulinemia in rodents, however, insulin gene expression during estrous cycle is unknown. The aim of the present study was to determine an insulin gene expression pattern during the estrous cycle in the rat. Groups of 6 adult rats in each day of the estrous cycle were used. Serum P4, E2, testosterone (T) and insulin concentrations were determined by radioimmunoassay (RIA). A Northern blot analysis was performed to assess insulin gene expression in pancreatic tissue. We found a marked variation in insulin gene expression during the estrous cycle. The highest insulin expression was observed during the proestrus day. Interestingly, E2 and P4 but not T levels were correlated with changes in insulin mRNA content. The variations in serum insulin during the cycle were correlated with its mRNA content in pancreas. The overall results showed variations in serum insulin and insulin gene expression during estrous cycle of the rat that correlated with circulating E2 and P4 levels.     

Impaired differentiation of endocrine and exocrine cells of the pancreas in transgenic mouse expressing the truncated type II activin receptor

Activin A is expressed in endocrine precursor cells of the fetal pancreatic anlage. To determine the physiological significance of activins in the pancreas, a transgenic mouse line expressing the truncated type II activin receptor under the control of beta-actin promoter was developed. Histological analyses of the pancreas revealed that the pancreatic islets of the transgenic mouse were small in size and were located mainly along the pancreatic ducts. Immunoreactive insulin was detected in islets, some acinar cells, and in some epithelial cells in the duct. In addition, there were abnormal endocrine cells outside the islets. The shape and the size of the endocrine cells varied and some of them were larger than islets. These cells expressed immunoreactive insulin and glucagon. In the exocrine portion, there were morphologically abnormal exocrine cells, which did not form a typical acinar structure. The cells lacked spatial polarity characteristics of acinar cells but expressed immunoreactive amylase, which was distributed diffusely in the cytoplasm. Plasma glucose concentration was normal in the transgenic mouse before and after the administration of glucose. The insulin content of the pancreas in transgenic and normal mice was nearly identical. These results suggest that activins or related ligands regulate the differentiation of the pancreatic endocrine and exocrine cells.     

Influence of age on the sensitivity of the rat to streptozotocin.

The relationship between age and sensitivity to the diabetogenic effect of streptozotocin was investigated. Changes in the serum levels of several parameters (glucose, immunoreactive insulin, lipids), as well as changes of the pancreatic insulin content were monitored at 2, 4, 8, 24 and 48 h after the intravenous administration of different doses of streptozotocin in rats of various weights. Different concentrations of blood glucose and lipid and different amounts of pancreatic immunoreactive insulin could be found in rats of different ages 24 and 48 h after injection of the same dose of the drug (in mg/kg body weight). Also, age-dependent changes of serum immunoreactive insulin could be observed as early as 4 h after streptozotocin administration. All these changes indicate that the sensitivity of the rat to the diabetogenic effect of streptozotocin is inversely related to the age of the animals. Most likely, age-dependent pancreatic factors have an important role. In fact, the changes of the minimum dose of streptozotocin required to cause diabetes in rats of different weights closely parallel the age-related changes of the total immunoreactive insulin content of the pancreas of the intact rats. The role of other age-related factors which may influence the effectiveness of streptozotocin action is briefly discussed.     

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.     

Ultrasound Echo-Intensity Predicts Severe Pancreatic Affection in Cystic Fibrosis Patients

Background

Pancreatic destruction affects the majority of patients with cystic fibrosis. We aimed to relate ultrasound findings to exocrine pancreatic function and cystic fibrosis genotype.

Methods

Patients with cystic fibrosis and a matched group of healthy controls were included. We performed transabdominal ultrasound, and recorded echo intensities of the pancreas and parenchymal characteristics according to endoscopic ultrasound based Rosemont criteria.

Results

We included 39 patients and 29 healthy controls. The cystic fibrosis patients were grouped according to exocrine pancreatic function; Cystic fibrosis, insufficient (n = 20) and sufficient (n = 19). Echo intensity measures and visual score demonstrated hyper-echogenicity in the pancreas insufficient group compared to the pancreas sufficient groups (p<0.001). Ductal and parenchymal changes were not prevalent in any of the groups.

Conclusion

The hyper-echoic pancreas was the most frequent ultrasonographic finding in exocrine pancreas insufficient cystic fibrosis patients. Pancreatic echo levels correlated to pancreatic phenotype.     

Pancreatic cell responses to primary and repeated 2 G influence

The pancreas of the rats exposed to primary and repeated prolonged hypergravity was studied by means of cytological methods. The rats were rotated on centrifuge at 2 G for 19 days and then after 30-day adaptation to 1 G were repeatedly exposed to 2 G for 5 days simultaneously with the rats first subjected to 5-day 2 G. After 5-day and 19-day hypergravity in pancreatic beta-cells the signs of decrease in insulin production were found. Adaptation of rats to 1 G for 30 days restored this process. Repeated 2 G for 5 days induced in beta-cells the changes of structure and hormonal product content indicating the pronounced increase in insulin synthesis and secretion. Response of alpha-cells to repeated 5-day 2 G was in parallel with beta-cell reactions.     

Rapid purification of a prekallikrein from rat pancreas

A prekallikrein from rat pancreas was purified 1500-fold with an overall yield of 20% using a rapid, simple procedure. DEAE-Sephadex A-50 chromatography permitted the separation of two prekallikrein components present in rat pancreatic homogenates; the major fraction was further purified by Sephadex G-100 gel filtration and immunoadsorption chromatography. The zymogen is a single-chain molecule with pI 4·35. Apparent M_r values of 38,000 and 37,000 were determined by sodium dodecyl sulfate-polyacrylamide gradient electrophoresis and gel filtration, respectively.     

The duct-ligated pancreas transplant and its effect on the islet cellular composition of the host pancreas

Summary Rats rendered diabetic by streptozotocin were subjected to pancreas transplantation. After twenty weeks, the duct-ligated pancreas transplant was studied morphometrically to determine the effect of duct occlusion on the various cell populations of the islets. Concomitantly, the streptozotocin-treated host pancreas was examined for a possible influence of the graft on the diabetic pattern of islet cell population. Twenty weeks after pancreas transplantation, the volume fractions of insulin, glucagon, somatostatin and pancreatic polypeptide cells in the graft islets did not differ from those of the normal control pancreas. In the pancreas of nontransplanted diabetic rats, insulin-positive B cells were reduced from 60–65% to less than 10% of the islet volume, whereas non-B cells were significantly increased in volume density. The changes in fractional volume of the various islet cells correlated fairly well with changes in plasma concentration of the corresponding pancreas hormones. In the recipient's own pancreas, the relative volumes of glucagon and somatostatin cells were unaffected by the pancreas transplant. However, the insulin cell mass was significantly increased, and comprised about 20% of the islet volume, while cells containing pancreatic polypeptide were found only sporadically.Supported by Nordic Insulin Fund, The Swedish Diabetes Association, and MFR, proj. no. 4499. The technical assistance by M. Maxe and M. Carlesson is gratefully acknowledged     

Chronic exercise enhances insulin secretion ability of pancreatic islets without change in insulin content in non-diabetic rats

We evaluated the effect of chronic exercise on insulin secretion in response to high-glucose by using a perifusion method with isolated pancreatic islets from normal rats. Male Wistar rats were assigned to one of two groups: a sedentary group and a trained group. Running exercise was carried out on a treadmill for one hour per day, five days per week, for six, nine, or 12 weeks. The chronic exercise significantly enhanced the insulin secretion ability of pancreatic islets in response to the high-glucose stimulation upon nine and 12 weeks of exercise. The insulin content in the pancreas and the weight of the pancreas did not change upon nine weeks of exercise. Potassium-stimulated insulin secretion was also increased in the islets isolated from rats that trained for nine weeks compared with that in sedentary rats, suggesting that insulin secretion events downstream of membrane depolarization are involved in targets of the exercise effect. These findings suggest that chronic exercise could be a useful strategy not only for the maintenance of peripheral insulin sensitivity but also for the promotion of islet function to secrete insulin in non-diabetics.     

Differentially expressed proteins in the pancreas of diet-induced diabetic mice

The pancreas is a heterogeneous organ mixed with both exocrine and endocrine cells. The pancreas is involved in metabolic activities with the endocrine cells participating in the regulation of blood glucose, while the exocrine portion provides a compatible environment for the pancreatic islets and is responsible for secretion of digestive enzymes. The purpose of this study was to identify pancreatic proteins that are differentially expressed in normal mice and those with diet-induced type 2 diabetes (T2DM). In this study, C57BL/6J male mice fed a high fat diet became obese and developed T2DM. The pancreatic protein profiles were compared between control and diabetic mice using two-dimensional gel electrophoresis. Differentially expressed protein "spots" were identified by mass spectrometry. REG1 and REG2 proteins, which may be involved in the proliferation of pancreatic beta cells, were up-regulated very early in the progression of obese mice to T2DM. Glutathione peroxidase, which functions in the clearance of reactive oxidative species, was found to be down-regulated in the diabetic mice at later stages. The RNA levels encoding REG2 and glutathione peroxidase were compared by Northern blot analysis and were consistent to the changes in protein levels between diabetic and control mice. The up-regulation of REG1 and REG2 suggests the effort of the pancreas in trying to ameliorate the hyperglycemic condition by stimulating the proliferation of pancreatic beta cells and enhancing the subsequent insulin secretion. The down-regulation of glutathione peroxidase in pancreas could contribute to the progressive deterioration of beta cell function due to the hyperglycemia-induced oxidative stress.     

C-peptide, insulin and proinsulinlike components in diabetic and nondiabetic human pancreas.

The contents of insulin and C-peptide extractable with acid alcohol from the tail of the pancreas and insulinoma were investigated, using gel filtration in seven nondiabetics including two patients with insulinoma and eight diabetics. The gel filtration patterns of both C-peptide and insulin in pancreatic extract were fairly stable even after the pancreas had been left for 14 hrs in the room temperature. In nondiabetics except cases of insulinoma the content of insulin in pancreas ranged from 1.42 to 4.56 U per gram and that of C-peptide from 8.76 to 25.63 microgram per gram wet pancreas. The proportion of proinsulinlike components (PLC) ranged from 0.01 to 2.04% of insulin plus PLC. In diabetics insulin content was low and ranged from 0 to 1.68 U per gram and that of C-peptide from 0 to 14.48 microgram per gram wet pancreas. In insulinoma, both insulin and C-peptide increased and PLC occupied 5.48 and 5.96%, respectively.