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Schematic of the relation between an immunoglobulin and RAGE Schematic of the RAGE gene and its products. RAGE (receptor for advanced glycation endproducts), also called AGER, is a 35 kilodalton transmembrane receptor [5] of the immunoglobulin super family which was first characterized in 1992 by Neeper et al. [6] Its name comes from its ability to bind advanced glycation endproducts (), which ...
Thus modified, these proteins contribute to complications from diabetes. AGEs affect nearly every type of cell and molecule in the body and are thought to be one factor in aging [6] and some age-related chronic diseases. [7] [8] [9] They are also believed to play a causative role in the vascular complications of diabetes mellitus. [10]
Defects in cellular processes such as autophagy and mitophagy are thought to contribute to the development of diabetic cardiomyopathy. [2] Diabetic cardiomyopathy is characterized functionally by ventricular dilation, enlargement of heart cells, prominent interstitial fibrosis and decreased or preserved systolic function [5] in the presence of a diastolic dysfunction.
Diabetic ketoacidosis (DKA) is one of the life-threatening severe complications of diabetes that demands immediate attention and intervention. [7] It is considered a medical emergency and can affect both patients with T1D (type 1 diabetes) and T2D (type 2 diabetes), but it is more common in T1D. [8]
3-Deoxyglucosone (3DG) is a sugar that is notable because it is a marker for diabetes. 3DG reacts with protein to form advanced glycation end-products (AGEs), which contribute to diseases such as the vascular complications of diabetes, atherosclerosis, hypertension, Alzheimer's disease, inflammation, and aging.
Hyperglycemia may be caused by: diabetes, various (non-diabetic) endocrine disorders (insulin resistance and thyroid, adrenal, pancreatic, and pituitary disorders), sepsis and certain infections, intracranial diseases (e.g. encephalitis, brain tumors (especially if near the pituitary gland), brain haemorrhages, and meningitis) (frequently ...
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The polyol pathway is a two-step process that converts glucose to fructose. [1] In this pathway glucose is reduced to sorbitol, which is subsequently oxidized to fructose. It is also called the sorbitol-aldose reductase pathway. The pathway is implicated in diabetic complications, especially in microvascular damage to the retina, [2] kidney, [3 ...