Engineering of a VPAC2 receptor peptide agonist to impart dipeptidyl peptidase IV stability and enhance in vivo glucose disposal.

VPAC2P-PEG is a VPAC2 receptor agonist peptide that acts as a glucose-dependent insulin secretagogue. Proteolysis by DPPIV may contribute to the in vivo clearance of VPAC2P-PEG. Here, the N-terminus of VPAC2P-PEG is modified by N-terminal acetylation to impart DPPIV resistance.

Specific inhibition of hormone-sensitive lipase improves lipid profile while reducing plasma glucose.

Elevation of plasma free fatty acids has been linked with insulin resistance and diabetes. Inhibition of lipolysis may provide a mechanism to decrease plasma fatty acids, thereby improving insulin sensitivity. Hormone-sensitive lipase (HSL) is a critical enzyme involved in the hormonally regulated release of fatty acids and glycerol from adipocyte lipid stores, and its inhibition may thus improve insulin sensitivity and blood glucose handling in type 2 diabetes.

Contribution of site-specific PEGylation to the dipeptidyl peptidase IV stability of glucose-dependent insulinotropic polypeptide.

The effects of PEGylation of glucose-dependent insulinotropic polypeptide (GIP) on potency and dipeptidyl peptidase IV (DPPIV) stability are reported. N-terminal modification of GIP(1-30) with 40 kDa polyethylene glycol (PEG) abrogates functional activity. In contrast, C-terminal PEGylation of GIP(1-30) maintains full agonism and reasonable potency at the GIP receptor and confers a high level of DPPIV resistance.

In vitro SAR of (5-(2H)-isoxazolonyl) ureas, potent inhibitors of hormone-sensitive lipase.

A series of (5-(2H)-isoxazolonyl) ureas were developed as nanomolar inhibitors of hormone-sensitive lipase, an enzyme of potential importance in the treatment of diabetes.

Insulin inhibits apolipoprotein B secretion in isolated human hepatocytes.

The effect of insulin on apolipoprotein (apo) B secretion was investigated in human hepatocytes. Freshly isolated hepatocytes, prepared by collagenase dispersion of liver specimens, were incubated in serum-free media in the absence and presence of 100 nmol/L insulin for 2 hours. The media was then assayed for apo B content by radioimmunoassay.

Insulin regulates apolipoprotein B turnover and phosphorylation in rat hepatocytes.

Our laboratory has previously shown that insulin inhibits the secretion of newly-synthesized and immunoreactive apo B from rat hepatocytes. We have also shown that apo B is secreted as a phosphoprotein and that phosphorylation is increased in hypoinsulinemic nonketotic diabetes. The present studies were conducted to determine whether the ability of insulin to inhibit apo B secretion is related to alterations in apo B turnover and whether insulin itself affects apo B phosphorylation.

Postreceptor regulation of insulin action in primary cultures of rat hepatocytes by oral hypoglycemic agents: effects of linogliride and chlorpropamide.

We have previously demonstrated the ability of the sulfonylurea tolazamide to potentiate insulin action in primary cultures of hepatocytes prepared from normal and streptozotocin-diabetic rats. To determine whether the pirogliride derivative linogliride, a non-sulfonylurea orally effective hypoglycemic agent, can potentiate insulin action, we evaluated the ability of linogliride to affect insulin-stimulated lipogenesis in primary cultures of hepatocytes prepared from normal rats. In addition, we also evaluated the ability of the sulfonylurea chlorpropamide to affect insulin-stimulated lipogenesis in the same in vitro system.

Hormone and substrate regulation of glycogen accumulation in primary cultures of rat hepatocytes.

Hormonal and substrate regulation of hepatic glycogen accumulation was evaluated in primary cultures of hepatocytes prepared from 1-day-fasted rats. Hepatocytes were cultured in media containing 5 mM-glucose and 10 mM-lactate and then exposed to 100 nM-dexamethasone for 4 h before an increase in glucose concentration and the addition of insulin. When this protocol was used to mimic the post-prandial state in vivo, net glycogen accumulation (over 2 h) and insulin (10 nM) effects were linear at physiological (5-10 mM) and supraphysiological (20-30 mM) glucose concentrations.

Insulin-mimetic effects of vanadate in primary cultures of rat hepatocytes.

To evaluate possible mechanisms by which insulin inhibits hepatic apolipoprotein B (apoB) secretion, we incubated primary cultures of rat hepatocytes with sodium orthovanadate, a phosphotyrosine phosphatase inhibitor and insulin-mimetic agent. Vanadate (10 microM) and insulin (10 nM) inhibited the medium accumulation of apoB (secretion) by 21 and 37%, respectively, without increasing intracellular apoB. The effects of insulin and vanadate together were not additive.

Role of sialic acid in insulin action and the insulin resistance of diabetes mellitus.

Adipocytes treated with neuraminidase show markedly reduced responsiveness to insulin without any alteration in insulin binding. In addition, several studies have separately demonstrated both insulin resistance and decreases in membrane sialic acid content and associated biosynthetic enzymes in diabetes mellitus. In the present study, we investigated the role that sialic acid residues may play in insulin action and in the hepatic insulin resistance associated with nonketotic diabetes.

Insulin effects on apolipoprotein B lipoprotein synthesis and secretion by primary cultures of rat hepatocytes.

Lipoprotein synthesis and secretion were examined in primary cultures of rat hepatocytes cultured on collagen-coated plates and incubated with pharmacologic and physiologic concentrations of insulin. Media insulin concentration declined rapidly over the course of incubation indicating that hepatocytes rapidly degrade insulin. When insulin was present in the media, cellular triglyceride accumulated while lipid secretion declined.

The mechanisms of up-regulation of the hepatic insulin receptor in hypoinsulinemic diabetes mellitus.

The mechanism underlying the increased insulin binding found in hepatic plasma membranes from streptozotocin-diabetic rats was evaluated by measuring insulin binding to intact and Triton X-100-soluble extracts of plasma membranes prepared from the livers of control rats and rats administered streptozotocin (85 mg/kg). In addition, to assess whether the cellular content of hepatic insulin receptors is also increased in diabetic animals, we measured insulin-binding activity in intact and soluble extracts of total hepatic cellular membrane preparations (100,000 X g cellular pellets). The data indicate that while insulin binding is increased (52 +/- 3%) in intact hepatic plasma membranes from diabetic rats compared to control rats, there is no comparable increase in insulin binding in intact total cellular membranes or in Triton X-100-soluble extracts of plasma membranes or total cellular membranes.

Hepatic insulin resistance in non-insulin-dependent diabetes mellitus and the effects of a sulfonylurea in potentiating insulin action.

We have utilized primary cultures of rat hepatocytes to study insulin resistance in the liver of nonketotic streptozotocin-diabetic animals. Diabetes mellitus is associated with insulin resistance with regard to hepatic lipogenesis. This resistance is profound at serum glucose levels above 400 mg/dl and, below that, inversely related to the serum glucose.

Dexamethasone stimulates insulin receptor synthesis in cultured rat hepatocytes.

The ability of the glucocorticoid dexamethasone to modulate the insulin receptor was examined directly in primary cultures of hepatocytes prepared from adult male rats. Hepatocytes were cultured in a defined medium in the presence and absence of dexamethasone, 0.1 microM.

On the mechanism of action of lead in the testis: in vitro suppression of FSH receptors, cyclic AMP and steroidogenesis.

Previous evidence has shown that prenatal and neonatal exposure to low levels of Pb result in decreased FSH binding and steroidogenesis in the testes at the onset of puberty. The purpose of the present study was to determine by in vitro methods, if Pb acts by interfering directly with hormone binding, cyclic AMP production and steroidogenic enzyme activity. Sertoli cells were isolated from testes of prepubertal rats and cultured in the presence of 2.

Potentiation of insulin action by a sulfonylurea in primary cultures of hepatocytes from normal and diabetic rats.

Although sulfonylureas have been used extensively in the treatment of non-insulin-dependent (type II) diabetes, controversy exists as to whether these agents act primarily by increasing insulin secretion or by enhancing insulin action. To determine whether sulfonylureas potentiate insulin action in the liver, we evaluated the ability of the sulfonylurea tolazamide to affect insulin-sensitive lipogenesis utilizing primary cultures of hepatocytes prepared from both normal and nonketotic streptozotocin-diabetic rats. Hepatocytes were cultured for 16 h in serum-free media with no additions, tolazamide alone (0.

PGE2 and dibutyryl-cAMP enhance the response of rat granulosa cells to FSH.

Granulosa cells isolated from immature Sprague-Dawley rat ovaries produce progesterone (31.7 pg/micrograms cell protein) in response to an acute FSH stimulus (5 micrograms/ml NIH-FSH-S11, 2 H). After culture for 48 h in the absence of hormones (control culture), progesterone production by the granulosa cells in response to FSH is significantly reduced (2.

Follicle-stimulating hormone induction of luteinizing hormone receptor in cultured rat granulosa cells: an examination of the need for steroids in the induction process.

The induction of LH receptors by FSH in cultured rat granulosa cells and the effects of ovarian steroids on this process were examined. Granulosa cells were isolated from the ovaries of untreated immature rats (25 days old) and cultured with highly purified FSH (Sairam; 250 ng/ml). After culture (48-96 h in chemically defined media), both the binding of [125I]hCG and the responsiveness (cAMP and progesterone production) to an acute LH stimulus (100 ng/ml; NIH B8) were measured.

Estrogen-binding proteins in the oviduct of the turtle, Chrysemys picta: evidence for a receptor species.

Estradiol-binding proteins in the reproductive tract of the turtle, Chrysemys picta, were characterized. Cytosol was prepared from the oviducts of mature female turtles, and estradiol binding was measured using charcoal adsorption and glycerol density gradient centrifugation. A sex steroid-binding protein (SBP) similar to that found in turtle plasma was demonstrated in oviduct cytosol.

Sex steroid binding proteins in non-mammalian vertebrates.

High affinity cytosolic and nuclear steroid binding macromolecules have been identified in steroid target tissues of representative amphibians, reptiles and birds. In addition to these traditional "receptors" evidence exists which indicates the presence of other steroid binding proteins, varying in affinity and specificity, in the cytosol of steroid targets (liver, oviduct) of these same species. The possible relationships between cytosolic binding proteins of differing affinity and specificity and their relevance to hormone action in non-mammalian species is discussed.