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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent findings suggest that proinsulin C-peptide improves renal and nerve function as well as microcirculation in patients with insulin-dependent
diabetes
possibly by stimulating Na-K+-ATPase activity. Furthermore, in vitro studies on proximal rat renal tubule cells show that the effect of C-peptide on Na+, K+-ATPase activity is potentiated in the presence of the vasoconstrictor peptide
neuropeptide Y
. The aim of the present study was to examine whether the effects of
neuropeptide Y
on resting forearm blood flow in insulin-dependent patients is altered in the presence of C-peptide. Forearm blood flow was measured by a plethysmographic method in eight insulin-dependent patients and six healthy control subjects. Neuropeptide Y (20, 200 and 2000 pmol min(-1)) was infused into the brachial artery before and during an i.v. infusion of C-peptide (5 pmol kg(-1) min(-1)). Basal blood flow was 36.7 +/- 2.2 mL min(-1) L(-1) tissue. It decreased in a dose dependent manner by 11 +/- 2, 18 +/- 3 and 25 +/- 3%, respectively, during infusion of
neuropeptide Y
. Administration of C-peptide increased basal blood flow by 25 +/- 6%, to 46.3 +/- 3.5 mL min(-1) L(-1) tissue (P < 0.01) and forearm glucose uptake by 76 +/- 34% (P < 0.05). Infusion of the three doses of
neuropeptide Y
during administration of C-peptide decreased forearm blood flow by 14 +/- 4, 22 +/- 3 and 42 +/- 4%. There was a significant difference (43%, P < 0.001) between the reduction in blood flow evoked by the high dose (2000 pmol min(-1)) of
neuropeptide Y
before and during C-peptide infusion. Similar differences were also obtained when data were calculated as changes in vascular resistance. C-peptide did not affect resting forearm blood flow or the response to
neuropeptide Y
in healthy controls. In conclusion, the present data demonstrate that C-peptide increases resting forearm blood flow and augments the vasoconstrictor effects of
neuropeptide Y
in insulin-dependent patients.
...
PMID:C-peptide potentiates the vasoconstrictor effect of neuropeptide Y in insulin-dependent diabetic patients. 1007 95
The decline of leptin (Ob protein) concentrations during fasting is implicated as a signal for increasing the expression of the orexigenic peptide
neuropeptide Y
(
NPY
) in the hypothalamus. To test the hypothesis that the effects of food intake on arcuate nucleus
NPY
activation are mediated by leptin, we performed simultaneous triple in situ hybridization colocalization studies to determine whether the subset of
NPY
neurons that are activated by fasting preferentially expresses the long form of the leptin receptor (Ob-Rb). Thus, mRNAs encoding
NPY
and pro-opiomelanocortin (POMC) were colocalized in the arcuate nucleus of fed and fasted rats by fluorescence in situ hybridization in combination with isotopic in situ hybridization for Ob-Rb mRNA. In fed animals, 47% of arcuate nucleus neurons containing
NPY
mRNA also contained Ob-Rb mRNA, compared with 79% of POMC neurons (P < 0.01). After a 2-day fast, the number of arcuate nucleus neurons with
NPY
mRNA increased 50% (P < 0.05); the number of these that coexpressed Ob-Rb increased twofold (P = 0.013). Furthermore, Ob-Rb mRNA hybridization in individual
NPY
neurons increased by 64% (P < 0.02). In contrast, the number of POMC neurons that coexpressed Ob-Rb was unchanged. A significant interpretation of these findings is that the
NPY
neurons that do not express detectable levels of Ob-Rb mRNA are not activated by fasting, whereas the
NPY
neurons that are activated by fasting are the ones that express Ob-Rb. These data demonstrate a significant physiological difference between
NPY
neurons that express Ob-Rb and those that do not. The results support the conclusion that the effect of food intake on
NPY
neurons is mediated by the direct action of leptin via Ob-Rb receptors expressed by these
NPY
cells. The results also indicate that expression of Ob-Rb is a defining phenotypic characteristic of the subset of arcuate nucleus
NPY
neurons that are activated by fasting and play a central role in the adaptive response to negative energy balance.
Diabetes
1999 Apr
PMID:Leptin receptor mRNA identifies a subpopulation of neuropeptide Y neurons activated by fasting in rat hypothalamus. 1010
Effects of streptozotocin (STZ)-induced
diabetes
and insulin on opioid peptide gene expression were examined in rats. In experiment 1, three groups were administered STZ (75 mg/kg ip single injection). Two groups were killed at either 2 or 4 wk. In the third group, insulin treatment (7.0 IU/kg x 1 day for 3 wk) was initiated 1 wk after STZ injection. STZ induced hyperphagia and reduced weight gain. Insulin decreased food intake and increased body weight relative to
diabetes
. Proopiomelanocortin (POMC) mRNA in arcuate nucleus (Arc) and pituitary decreased in
diabetes
and normalized after insulin treatment. Prodynorphin (proDyn) mRNA increased in
diabetes
and normalized in the pituitary after insulin but not in the Arc.
Diabetes
did not alter proenkephalin (proEnk) expression in the Arc or pituitary, nor dynorphin A1-17 or beta-endorphin in paraventricular nucleus (PVN). alpha-Melanocyte-stimulating hormone (alpha-MSH) peptide levels were decreased in the PVN and normalized following insulin treatment.
Diabetes
increased Arc
neuropeptide Y
mRNA, and insulin suppressed this increase. In experiment 2, insulin (2.5 IU/kg sc) daily for 1 wk in normal rats increased Arc POMC mRNA, but not proDyn and proEnk mRNA. These results suggest that Arc POMC expression and PVN alpha-MSH peptide levels decrease in
diabetes
. Also, insulin may influence Arc and pituitary POMC activity in neurons that regulate energy metabolism.
...
PMID:STZ-induced diabetes decreases and insulin normalizes POMC mRNA in arcuate nucleus and pituitary in rats. 1023 22
It has been claimed that factors favoring the development or maintenance of animal or human obesity may include increases in glucocorticoid production or hyperresponsiveness of the hypothalamic-pituitary-adrenal axis. In normal rats, glucocorticoids have been shown to be necessary for chronic intracerebroventricular infusion of
neuropeptide Y
to produce obesity and related abnormalities. Conversely, glucocorticoids inhibited the body weight-lowering effect of leptin. Such dual action of glucocorticoids may occur within the central nervous system, since both
neuropeptide Y
and leptin act within the hypothalamus. The aim of this study was to determine the effects of glucocorticoids (dexamethasone) given intracerebroventricularly to normal rats on body weight homeostasis and hypothalamic levels of
neuropeptide Y
and corticotropin-releasing hormone. Continuous central glucocorticoid infusion for 3 days resulted in marked sustained increases in food intake and body weight relative to saline-infused controls. The infusion abolished endogenous corticosterone output and produced hyperinsulinemia, hypertriglyceridemia, and hyperleptinemia, three salient abnormalities of obesity syndromes. Central glucocorticoid infusion also produced a marked decrease in the expression of uncoupling protein (UCP)-1 and UCP-3 in brown adipose tissue and UCP-3 in muscle. Finally, chronic central glucocorticoid administration increased the hypothalamic levels of
neuropeptide Y
and decreased those of corticotropin-releasing hormone. When the same dose of glucocorticoids was administered peripherally, it resulted in decreases in food intake and body weight, in keeping with the decrease in hypothalamic
neuropeptide Y
levels. These results suggest that glucocorticoids induce an obesity syndrome in rodents by acting centrally and not peripherally.
Diabetes
1999 Feb
PMID:Induction of obesity and hyperleptinemia by central glucocorticoid infusion in the rat. 1033 15
This study examined the relationship between islet neurohormonal characteristics and the defective glucose-stimulated insulin secretion in genetic type 2 diabetic Chinese hamsters. Two different sublines were studied:
diabetes
-prone CHIG hamsters and control CHIA hamsters. The CHIG hamsters were divided into three subgroups, depending on severity of hyperglycemia. Compared to normoglycemic CHIG hamsters and control CHIA hamsters, severely hyperglycemic CHIG hamsters (glucose > 15 mmol/l) showed marked glucose intolerance during i.p. glucose tolerance test and 75% impairment of glucose-stimulated insulin secretion from isolated islets. Mildly hyperglycemic CHIG animals (glucose 7.2-15 mmol/l) showed only moderate glucose intolerance and a 60% impairment of glucose-stimulated insulin secretion from the islets. Immunostaining for
neuropeptide Y
and tyrosine hydroxylase (markers for adrenergic nerves) and for vasoactive intestinal peptide (marker for cholinergic nerves) revealed significant reduction in immunostaining of islets in the severely but not in the mildly hyperglycemic animals, compared to control CHIA hamsters. The study therefore provides evidence that in this model of type 2 diabetes in Chinese hamsters, severe hyperglycemia is accompanied not only by marked glucose intolerance and islet dysfunction but also by reduced islet innervation. This suggests that islet neuronal alterations may contribute to islet dysfunction in severe but not in mild
diabetes
.
...
PMID:Islet neuronal abnormalities associated with impaired insulin secretion in type 2 diabetes in the Chinese hamster. 1045 49
Twelve prediabetic and 12 diabetic non-obese diabetic (NOD) mice, all females aged 22-24 weeks, were investigated. As controls, 12 BLAB/cJ Bom mice of the same age and gender as the NOD mice were used. The concentration of several neuroendocrine peptides was determined by radioimmunoassay of tissue extracts of transmural specimens of antrum and distal colon. The neuroendocrine peptides investigated were peptide YY (PYY), somatostatin, vasoactive intestinal polypeptide (VIP),
neuropeptide Y
(
NPY
), neurotensin, and galanin. In the antrum, VIP,
NPY
, and galanin concentrations were all significantly lower in prediabetic and diabetic NOD mice than in controls. There was no statistical difference between NOD mice and controls regarding neurotensin content. In the colon, the concentrations of PYY, somatostatin, VIP,
NPY
, and galanin were lower in prediabetic and diabetic NOD mice than in controls. The concentration of neurotensin in prediabetic, but not in diabetic NOD mice was lower than that of controls. The present observations support the previously reported studies on animal models for human type I
diabetes
that the neuroendocrine system of the gut is disturbed. It also shows that the neuroendocrine system of the stomach and large intestine is affected. The present findings may have some implications for the gastrointestinal dysfunction observed in patients with human type I
diabetes
.
J
Diabetes
Complications
PMID:Neuroendocrine peptides in stomach and colon of an animal model for human diabetes type I. 1050 78
An accumulation of evidence implicates leptin, insulin, glucocorticoids, proopiomelanocortin (POMC), and
neuropeptide Y
(
NPY
) interactions as being integral to metabolic control associated with neuroendocrine-endocrine functioning. Dysfunction of neuroendocrine-endocrine interactions contributes to the metabolic disturbances of
diabetes mellitus
type 2 (DM-2). Since Zn has a direct impact on the healthy functioning of hormonal and neuropeptide balance, it is possible that altered Zn status and metabolism in DM-2 are involved in some of the metabolic dysfunctions of DM-2.
...
PMID:Potential interactions of zinc in the neuroendocrine-endocrine disturbances of diabetes mellitus type 2. 1060 38
The rat
diabetes
susceptibility gene, Lyp or Lymphopenia, has been localized to RNO4. Proximal to Lyp are the genes caspase-2 (Casp2) and pancreatic trypsin 1 (Prss1), while
neuropeptide Y
(Npy) is the closest distally positioned gene. In human, the three genes are syntenic on HSA7, but they are not on a conserved segment: CASP2 and PRSS1 are localized to 7q35, while NPY is localized to 7p15.1. This raises the question whether the human homologue of Lyp is linked to CASP2/PRSS1 or to NPY. We present a comparative map of the Lyp region in rat and human, assigning the gene to a 1.3-Mb segment between RNY3 and ABP1 at 7q35.
...
PMID:Comparative mapping of the human homologue of the rat diabetes susceptibility gene lyp to a 1.3-Mb segment on HSA7. 1077 70
The pancreatic islets are richly innervated by parasympathetic, sympathetic and sensory nerves. Several different neurotransmitters are stored within the terminals of these nerves, both the classical neurotransmitters, acetylcholine and noradrenaline, and several neuropeptides. The neuropeptides, vasoactive intestinal polypeptide, pituitary adenlyate cyclase activating polypeptide and gastrin releasing peptide are constituents of the parasympathetic nerves, whereas the neuropeptides galanin and
neuropeptide Y
are localised to sympathetic nerve terminals. Furthermore, the neuropeptide calcitonin gene-related peptide is localised to sensory nerves and cholecystokinin is also an islet neuropeptide, although the nature of the cholecystokinin nerves is not established. Stimulation of the autonomic nerves and treatment with neurotransmitters affect islet hormone secretion. Thus, insulin secretion is stimulated by parasympathetic nerves or their neurotransmitters and inhibited by sympathetic nerves or their neurotransmitters. The islet autonomic nerves seem to be of physiological importance in mediating the cephalic phase of insulin secretion, in synchronising the islets to function as a unit allowing oscillations of islet hormone secretion, and in optimising islet hormone secretion during metabolic stress, e.g. hypoglycaemia and neuroglycopenia. The autonomic nerves could also be involved in the islet adaptation to insulin resistance with possible implication for the development of glucose intolerance and Type II (non-insulin-dependent)
diabetes mellitus
. It is concluded that islet innervation, through the contribution of all branches of the autonomic nerves and several different neurotransmitters is of importance both for the physiology and pathophysiology of the islets.
...
PMID:Autonomic regulation of islet hormone secretion--implications for health and disease. 1081 32
Hypothalamic melanocortins are among several neuropeptides strongly implicated in the control of food intake. Agonists for melanocortin 4 (MC-4) receptors such as alpha-melanocyte-stimulating hormone (alpha-MSH), a product of proopiomelanocortin (POMC), reduce food intake, whereas hypothalamic agouti-related protein (AgRP) is a MC-4 receptor antagonist that increases food intake. To investigate whether reduced melanocortin signaling contributes to hyperphagia induced by uncontrolled
diabetes
, male Sprague-Dawley rats were studied 7 days after administration of streptozotocin (STZ) or vehicle. In addition, we wished to determine the effect of
diabetes
on muscle uncoupling protein 3 (UCP-3), a potential regulator of muscle energy metabolism. STZ diabetic rats were markedly hyperglycemic (31.3 +/- 1.0 mmol/l; P < 0.005) compared with nondiabetic controls (9.3 +/- 0.2 mmol/l). Insulin treatment partially corrected the hyperglycemia (18.8 +/- 2.5 mol/l; P < 0.005). Plasma leptin was markedly reduced in STZ diabetic rats (0.4 +/- 0.1 ng/ml; P < 0.005) compared with controls (3.0 +/- 0.4 ng/ml), an effect that was also partially reversed by insulin treatment (1.8 +/- 0.3 ng/ml). Untreated diabetic rats were hyperphagic, consuming 40% more food (48 +/- 1 g/day; P < 0.005) than controls (34 +/- 1 g/day). Hyperphagia was prevented by insulin treatment (32 +/- 2 g/day). In untreated diabetic rats, hypothalamic POMC mRNA expression (measured by in situ hybridization) was reduced by 80% (P < 0.005), whereas AgRP mRNA levels were increased by 60% (P < 0.01), suggesting a marked decrease of hypothalamic melanocortin signaling. The change in POMC, but not in AgRP, mRNA levels was partially reversed by insulin treatment. By comparison, the effects of
diabetes
to increase hypothalamic
neuropeptide Y
(
NPY
) expression and to decrease corticotropin-releasing hormone (CRH) expression were normalized by insulin treatment, whereas the expression of mRNA encoding the long form of the leptin receptor in the arcuate nucleus was unaltered by
diabetes
or insulin treatment. UCP-3 mRNA expression in gastrocnemius muscle from diabetic rats was increased fourfold (P < 0.005), and the increase was prevented by insulin treatment. The effect of uncontrolled
diabetes
to decrease POMC, while increasing AgRP gene expression, suggests that reduced hypothalamic melanocortin signaling, along with increased
NPY
and decreased CRH signaling, could contribute to diabetic hyperphagia. These responses, in concert with increased muscle UCP-3 expression, may also contribute to the catabolic effects of uncontrolled
diabetes
on fuel metabolism in peripheral tissues.
Diabetes
2000 Feb
PMID:Effects of streptozotocin-induced diabetes and insulin treatment on the hypothalamic melanocortin system and muscle uncoupling protein 3 expression in rats. 1086 41
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