Ishrath Ansurudeen scite author profile

Diabetes mellitus (DM) is a progressive disorder with severe late complications. Normal wound healing involves a series of complex and well-orchestrated molecular events dictated by multiple factors. In diabetes, wound healing is grossly impaired due to defective, and dysregulated cellular and molecular events at all phases of wound healing resulting in chronic wounds that fail to heal. Carnosine, a dipeptide of alanine and histidine and an endogenous antioxidant is documented to accelerate healing of wounds and ulcers. However, not much is known about its role in wound healing in diabetes. Therefore, we studied the effect of carnosine in wound healing in db/db mice, a mice model of Type 2 DM. Six millimeter circular wounds were made in db/db mice and analyzed for wound healing every other day. Carnosine (100 mg/kg) was injected (I.P.) every day and also applied locally. Treatment with carnosine enhanced wound healing significantly, and wound tissue analysis showed increased expression of growth factors and cytokines genes involved in wound healing. In vitro studies with human dermal fibroblasts and microvascular-endothelial cells showed that carnosine increases cell viability in presence of high glucose. These effects, in addition to its known role as an antioxidant and a precursor for histamine synthesis, provide evidence for a possible therapeutic use of carnosine in diabetic wound healing.

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New Mechanisms to Control Aldosterone Synthesis

Willenberg¹,

Schinner²,

Ansurudeen³

2008

Horm Metab Res

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Arterial hypertension is a frequent and leading cardiovascular risk factor, and primary aldosteronism is a well-recognized cause of secondary hypertension. Aldosterone is the basic regulator of extracellular fluid volume and electrolyte balance. Alterations in plasma aldosterone levels significantly contribute to the development and the severity of hypertension. Adrenal steroidogenesis is controlled by two major feedback loops: the hypothalamic-pituitary-adrenal axis, which regulates cortisol synthesis, and the renin-angiotensin-aldosterone system, which directs aldosterone production. In addition to angiotensin, potassium, and corticotropin-which belong to the classic stimulators of aldosterone-neuropeptides, catecholamines, and prostaglandins are also known to stimulate aldosterone synthesis. Recently, several new mechanisms have been characterized that control the release of aldosterone by adrenocortical cells, among them endothelial cell-derived factors and adipokines. Further identification and characterization of these factors may help in the development of novel therapies for the treatment of arterial hypertension, various metabolic diseases, and other disorders.

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IGFBP-1 and IGF-I as markers for advanced fibrosis in NAFLD – a pilot study

Hagström

Stål

Hultcrantz

et al. 2017

Scandinavian Journal of Gastroenterology

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Carnosine decreases IGFBP1 production in db/db mice through suppression of HIF-1

Forsberg¹,

Botusan²,

Wang³

et al. 2015

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IGF binding protein 1 (IGFBP1) is a member of the binding proteins for the IGF with an important role in glucose homeostasis. Circulating IGFBP1 is derived essentially from the liver where it is mainly regulated negatively by insulin. Carnosine, a natural antioxidant, has been shown to improve metabolic control in different animal models of diabetes but its mechanisms of action are still not completely unraveled. We therefore investigate the effect of carnosine treatment on the IGFBP1 regulation in db/db mice. Db/db mice and heterozygous non-diabetic mice received for 4 weeks regular water or water supplemented with carnosine. Igfbp1 mRNA expression in the liver was evaluated using qPCR and the protein levels in plasma by western blot. Plasma IGF1 and insulin were analyzed using immunoassays. HepG2 cells were used to study the in vitro effect of carnosine on IGFBP1. The modulation of hypoxia inducible factor-1 alpha (HIF-1a) which is the central mediator of hypoxia-induction of IGFBP1 was analyzed using: WB, reporter gene assay and qPCR. Carnosine decreased the circulating IGFBP1 levels and the liver expression Igfbp1, through a complex mechanism acting both directly by suppressing the HIF-1a-mediated IGFBP1 induction and indirectly through increasing circulating insulin level followed by a decrease in the blood glucose levels and increased the plasma levels or IGF1. Reduction of IGFBP1 in diabetes through insulin-dependent and insulin-independent pathways is a novel mechanism by which carnosine contributes to the improvement of the metabolic control in diabetes.

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Vascular-adrenal Niche - Endothelial Cell-mediated Sensitization of Human Adrenocortical Cells to Angiotensin II

Ansurudeen

Kopprasch²,

Ehrhart‐Bornstein³

et al. 2006

Horm Metab Res

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Alterations in both vasculature and renin-angiotensin-aldosterone system are a consistent finding in the metabolic syndrome. Adrenal tissue is highly vascularized and encounters blood flow, exceeding by far the volume expected for its size. Endothelial cells in the adrenal vasculature are therefore a major cellular component of adrenocortical tissue. The aim of the study was to analyze the cellular interaction between endothelial and steroid producing cells, focusing on endothelial cell-factor-mediated activation of aldosterone synthesis. The interaction between human endothelial (HUVECs) cell-conditioned medium and human adrenocortical (NCI-H295R) cells IN VITRO induced a significant surge in aldosterone secretion. The endothelial cell-conditioned medium together with angiotensin II and forskolin also potentiated aldosterone release by 1.5-fold and 2.6-fold, respectively, while preincubation of NCI-H295R cells for 24 h with endothelial cell-conditioned medium enhanced and sensitized the response of NCI-H295R to subsequent angiotensin II and forskolin stimuli by 2.5-fold and 2.2-fold, respectively. The increase in aldosterone release after preincubation with endothelial cell-conditioned medium was sensitive to cycloheximide and KN-93. Cellular conditioning with endothelial-cell factors exerts a hitherto unknown paracrine regulation of aldosterone production in human adrenocortical cells. This interaction may contribute to altered basal aldosterone release and have a role in patients with hypertension.

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