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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The activities of the four enzymes catalyzing intracellular post-translational modifications of the collagen polypeptide chains were assayed in the kidneys of rats with streptozotocin
diabetes
. When the changes in the four enzyme activities were expressed per milligram of protein in the 15,000 X g supernatant of the kidney homogenates, there were no changes in any of the enzyme activities at four weeks and only slight increases in the prolyl and lysyl hydroxylase activities at 12 weeks after the induction of
diabetes
. When the changes were expressed as total enzyme activities per two kidneys, again no changes were found in any enzyme activity at four weeks, but at 12 weeks significant increases were found in all four enzyme activities, namely
prolyl hydroxylase
, lysyl hydroxylase, collagen galactosyltransferase, and collagen glucosyltransferase. The data would be consistent with an increased collagen synthesis in diabetic kidneys, but they do not support the hypothesis that there might be specific changes in some of these enzyme activities or in the level of certain posttranslational modifications of the collagen polypeptide chains in this disease.
Diabetes
1976 Nov
PMID:Intracellular enzymes of collagen biosynthesis in rat kidney in streptozotocin diabetes. 18 46
The effect of
diabetes
and insulin on the activities of both
prolyl hydroxylase
(trivial name; proline,2-oxoglutarate dioxygenase,
EC 1.14.11.2
) and lysyl hydroxylase (trivial name; lysine,2-oxoglutarate dioxygenase, EC 1.14.11.4) in isolated rat renal glomeruli was determined. Three groups of experimental animals were used: age-matched controls, streptozotocin-diabetic, and insulin-treated streptozotocin-diabetic. Using 14C-labeled lysine or
proline hydroxylase
substrate prepared from chick embryo tibiae, glomerular 17 000 X g supernatant enzyme was incubated in a complete hydroxylating system for 60 and 120 min Lysyl hydroxylase activity was significantly increased in diabetic preparations, but
prolyl hydroxylase
activity did not differ from control. Administration of insulin to streptozotocin-injected animals completely restored glomerular lysyl hydroxylase to normal levels. The results suggest that the specific elevation of lysyl hydroxylase relates to the biochemical changes contributory to diabetic nephropathy, and that insulin may reverse this process.
...
PMID:Effect of diabetes and insulin on rat renal glomerular protocollagen hydroxylase activities. 18 35
We studied 12 members of a family with precirrhotic hemochromatosis to define the physiologic abnormalities in the asymptomatic phase of the disease. Six of 12 had increased iron stores; the mode of inheritance was consistent with an autosomal dominant trait. Serum ferritin levels were no more predictive of tissue iron levels than measurements of serum iron, transferrin saturation or chelatable iron excretion. In three affected family members intestinal iron content was normal. Liver
proline hydroxylase
activity and urinary hydroxyproline excretion did not correlate with tissue iron content, suggesting that, in addition to the possible role of tissue iron, hepatic fibrosis may involve other factors. "Borderline
diabetes
mellitus" was present in three affected family members, but extensive studies revealed that pituitary dysfunction is uncommon in early hemochromatosis. Increased levels of liver iron proved to be the most reliable marker for the disease.
...
PMID:Familial hemochromatosis. Physiologic studies in the precirrhotic stage of the disease. 19 51
Streptozotocin (STZ)-induced
diabetes
depresses the rate of vascular collagen synthesis in the spontaneously hypertensive rat (SHR), but it also reduces arterial pressure (SAP) in this strain. We investigated this phenomenon further by comparing the SHR with the renovascular hypertensive (RVH) rat, because
diabetes
does not affect SAP in the latter model of hypertension. Renovascular hypertension was induced by clipping the left renal artery of Wistar-Kyoto (WKY) rats; sham-operated WKY were included as normotensive controls. Collagen synthesis of arterial tissue in vitro was quantified as
prolyl hydroxylase
activity and the rate of radioactive proline incorporation into collagen. Arterial collagen synthesis of nondiabetic SHR and RVH animals was elevated compared to that of the nonhypertensive WKY controls. STZ-induced
diabetes
(8 weeks) reduced SAP of SHR, but had no effect on SAP of either RVH or normotensive WKY rats. However,
diabetes
significantly depressed vascular collagen synthesis of both SHR and RVH rats, and, less consistently, of the WKY. The results strongly suggest that STZ-induced
diabetes
in SHR impairs arterial collagen synthesis independent of associated changes in arterial pressure.
...
PMID:STZ-induced diabetes in SHR and renovascular hypertensive rats: dissociation between changes in arterial pressure and vascular collagen synthesis. 224 11
The plasma and tissue concentration of ascorbic acid (AA) is reduced in
diabetes
. This study was designed to investigate the mechanism and significance of this phenomenon. The low plasma AA concentration of diabetic rats can be normalized by dietary AA supplement (20-40 mg/day), a dosage approximately equal to the maximal synthetic rate of this substance in the rats. Treatment of diabetic rats with this regime prevented the decrease in activity of granulation tissue
prolyl hydroxylase
(PRLase), an AA-dependent enzyme required for maintaining the normal properties of collagen. The decreased plasma AA concentration and granulation tissue PRLase activity in
diabetes
can also be normalized by the aldose reductase inhibitor tolrestat. We conclude that in diabetic animals there is a true deficiency of AA that may be responsible for some of the changes of collagen observed in
diabetes
. Treatment with AA or an aldose reductase inhibitor may prevent some of the diabetic complications with underlying collagen abnormalities.
Diabetes
1988 Mar
PMID:Deficiency of ascorbic acid in experimental diabetes. Relationship with collagen and polyol pathway abnormalities. 283 50
Streptozotocin (STZ)-induced
diabetes
(8 weeks) produced a marked depressor effect in the spontaneously hypertensive rat (SHR), confirming earlier studies, but had no effect on arterial pressure of normotensive controls (WKY). We investigated the phenomenon further by examining the effects of
diabetes
on the activities of aortic
prolyl hydroxylase
(PH) and lysyl oxidase (LO), marker enzymes for collagen biosynthesis, and on the reactivity of isolated mesenteric arteries to vasoactive agents. PH and LO activities of nondiabetic SHR were greater than those of the WKY controls.
Diabetes
markedly reduced PH and LO activities of SHR aortae, but had no significant effect on PH and LO activities of the WKY strain. The effects of
diabetes
on vascular collagen biosynthetic enzymes of SHR were not associated with reductions in mesenteric arterial responsiveness or sensitivity to norepinephrine, methoxamine, serotonin or KC1. These results suggest that the depressor effect of
diabetes
in SHR is associated with a reduction in vascular collagen biosynthesis but not a reduction in vascular reactivity.
...
PMID:Depressor effect of diabetes in spontaneously hypertensive rat: role of vascular reactivity and prolyl hydroxylase and lysyl oxidase activities. 286 37
The
diabetes
resulted in marked decrease in
prolyl hydroxylase
(
EC 1.14.11.2
) activity in rat gingiva. Insulin treatment of diabetic rats returned the decreased enzyme activity to the level of normal controls. The results suggest that
diabetes
decreases the rate of collagen biosynthesis in gingival tissue by inhibiting the hydroxylation of peptidyl proline in collagen precursors.
...
PMID:The effect of streptozotocin-induced diabetes on prolyl hydroxylase activity in rat gingiva. 631 81
The effects of streptozotocin-induced
diabetes
, physical training and their combination on the activities of
prolyl 4-hydroxylase
(PH) and galactosylhydroxylysyl glucosyl-transferase (GGT), both marker enzymes of collagen biosynthesis, and on the concentration of hydroxyproline (Hyp) were studied in vastus lateralis, rectus femoris and gastrocnemius muscles in rats. The experimental period was 12-16 weeks.
Diabetes
had an overall decreasing effect on specific PH activity in all muscles studied, whereas specific GGT activity remained at control level. Total PH and GGT activities decreased in all three muscles in the diabetic animals (P < 0.001). Training caused an increase in PH and GGT activities in gastrocnemius in non-diabetic rats, whereas training in combination with
diabetes
did not change specific PH or GGT activity.
Diabetes
increased specific Hyp concentration in vastus lateralis and gastrocnemius in trained diabetic rats (P < 0.05), whereas training decreased Hyp level significantly (P < 0.05) in vastus lateralis in non-diabetic rats, but not in diabetic animals. The results suggest that in streptozotocin-induced
diabetes
the decrease in collagen synthesis rate exceeds the negative total protein balance in the muscle. Although physical training may have an increasing effect on muscular collagen synthesis in non-diabetic rats, it is unable to prevent the decreasing effect of
diabetes
on collagen synthesis.
...
PMID:Effects of streptozotocin-induced diabetes, physical training and their combination on collagen biosynthesis in rat skeletal muscle. 855 82
In this review we compare situations under which the major cellular role of mitochondria, oxidative phosphorylation (OXPHOS), is transiently suppressed. Two types of cellular bioenergetics exist, related to the predominance of glycolysis either disconnected or fully connected to OXPHOS: i) "glycolytic" phenotype, when the glycolytic end-product pyruvate is marginally used for OXPHOS; and, ii) OXPHOS phenotype with fully developed and active OXPHOS machinery consuming all pyruvate. A switch to glycolytic phenotype is typically orchestrated by gene reprogramming due to AMP-activated protein kinase, hypoxia-induced factor (HIF), NFkappaB, mTOR, and by oncogenes. At normoxia a continuous hydroxylation of HIF1alpha prolines by
prolyl hydroxylase
domain enzymes (PHDs) and asparagines by factor-inhibiting HIF (FIH) occurs, resulting in HIF1alpha polyubiquitination/degradation. With O(2) below a threshold level (<5% O(2)) cytosolic H(2)O(2) raises and oxidizes Fe(2+) of PHDs and FIH, inactivates them, thus stabilizing HIFalpha and upregulating transcription of specific genes. The source of H(2)O(2) burst (not manifested in isolated mitochondria) is the respiratory chain Complex III Q(O) site. Frequently hypoxic microenvironment of malignant tumors stimulates HIF-mediated conversion to the glycolytic state, nevertheless OXPHOS tumors also exist. The glycolytic mode predominates prior to implantation phase of embryonic development, hence in embryonic stem cells. Finally, a "Poderoso hypothesis" is discussed, predicting repetitive conversions to a transient glycolytic mode after a meal and concomitant insulin signaling. Accordingly, insulin stimulates mitochondrial NO synthase simultaneously with cellular glucose intake. The elevated NO diminishes respiration by inhibiting cytochrome c oxidase. Type 2
diabetes
may result from the accumulated impact of such nitrosative/oxidative stress.
...
PMID:Distinctions and similarities of cell bioenergetics and the role of mitochondria in hypoxia, cancer, and embryonic development. 1993 9
Chronic hypoxia induces sequential abnormalities in oxygen metabolism (for example, oxidative stress, nitrosative stress, advanced glycation, carbonyl stress, endoplasmic reticulum stress) in the kidneys of individuals with
diabetes
. Identification of these abnormalities improves our understanding of therapeutic benefits that can be achieved with antihypertensive agents, the control of hyperglycemia and/or hyperinsulinemia and the dietary correction of obesity. Key to the body's defense against hypoxia is hypoxia-inducible factor, the activity of which is modulated by prolyl hydroxylases (PHDs)-oxygen sensors whose inhibition may prove therapeutic. Renal benefits of small-molecule
PHD
inhibitors have been documented in several animal models, including those of diabetic nephropathy. Three different
PHD
isoforms have been identified (PHD1, PHD2 and PHD3) and their respective roles have been delineated in knockout mouse studies. Unfortunately, none of the current inhibitors is specific for a distinct
PHD
isoform. Nonspecific inhibition of PHDs might induce adverse effects, such as those associated with PHD2 inhibition. Specific disruption of PHD1 induces hypoxic tolerance, without angiogenesis and erythrocytosis, through the reprogramming of basal oxygen metabolism and decreased generation of oxidative stress in hypoxic mitochondria. A specific PHD1 inhibitor might, therefore, offer a novel therapy for abnormal oxygen metabolism not only in the diabetic kidney, but also in other diseases for which hypoxia is a final, common pathway.
...
PMID:Diabetic nephropathy: a disorder of oxygen metabolism? 2001 Aug 96
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