与青少年糖尿病患者血糖状态相关的炎症标志物水平改变

S. Mohiuddin
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引用次数: 0

摘要

糖尿病被认为是最常见的公共卫生疾病之一,在全球范围内具有广泛的分布。青少年糖尿病的发病主要是环境因素、遗传因素和免疫因素的协同作用,破坏胰腺β细胞群。遗传易感性个体发生1型糖尿病的主要因素是由于自身免疫过程,这种过程通常持续数月甚至数年,破坏β-细胞群在糖尿病临床表现明显之前,免疫标志物被认为是主要的诱发因素。虽然葡萄糖耐受水平维持正常,但由于β细胞数量急剧下降,胰岛素分泌逐渐减少。糖尿病的临床体征和症状通常是当约80%的β细胞团被用来破坏时引起的。此时,剩余功能β细胞的数量不足以维持葡萄糖耐量。从葡萄糖耐量受损转变为糖尿病的触发因素通常与感染或青春期可能发生的胰岛素需求量增加有关。1型糖尿病的主要易感基因位于6号染色体上的人类白细胞抗原区(HLA区),该遗传以多基因变异为主,占1型糖尿病发病遗传风险的40% ~ 50%。II类主要组织相容性复合体(II类MHC)由位于该区域的基因编码。与此区域内的DQ基因座关联最强,该基因座又进一步亚型为α和β基因座。对HLA位点进行基因分型精化后发现,DQ A1*0301、DQ B1*0302、DQ A1*501和DQ B1* 201与1型糖尿病的相关性最强。HLA-DQ β链n端β-1结构域57位氨基酸与1型糖尿病易感性直接相关,但对1型糖尿病患者DNA序列的分析尚未发现独特的II类序列如果个体遭受感染或毒性损伤,他们的免疫系统通常容易产生强烈的自身免疫过程,要么是针对类似病毒蛋白的β细胞分子,要么是针对改变的胰腺β细胞抗原,从而产生免疫介导的1型糖尿病。尽管其他类型的胰岛细胞在功能和胚胎学上与β细胞相似,并且在β细胞中表达最多相似的蛋白质,但却莫名其妙地免于自身免疫过程。通过“胰岛素炎”的过程,胰岛被白细胞浸润
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Altered level of inflammatory markers in relation to glycemic status associated with adolescent diabetic patients
Diabetes mellitus is considered to be one of the most common public health disorders which have a wide range of distribution all over the globes. For development of adolescent diabetes mellitus, the major etiological factors are the synergistic effects of environmental, genetic and immunological factors which used to destruct the pancreatic β-cells mass. The main contributing factor for occurrence of type 1 diabetes in individuals of genetic susceptibility is due to process of autoimmunity that used to develop several months or even years which used to destroy the β-cells mass.1 Immunological markers are used to consider as main precipitating agent before diabetic condition is clinically overt. Although there was a well-maintained normal tolerance level of glucose but due drastically decline of mass of β cells, insulin secretion is gradually decreasing. Clinical sign and symptom of diabetes mellitus usually caused when about 80% of β cell mass used to destroy. At this point of time the number of residual functioning β cells is insufficient to maintain the glucose tolerance. The triggering factor for transition from impaired glucose tolerance to frank diabetes are very frequently associated with requirement of more amount of insulin that may occur in infections or puberty. In human leukocyte antigen region (HLA region) on chromosome no 6 the major susceptibility gene of type 1 diabetes mellitus is located and this inheritance is mainly is of polygenic variety which used to account for 40% to 50% of genetic risk for developing of type 1 diabetes mellitus. Class II major histocompatibility complex (class II MHC) is encoded by genes which are situated in this region. The strongest association is with the DQ locus within this region and this locus is again further subtyped into α and β loci. The haplotypes DQ A1*0301, DQ B1*0302, DQ A1*501 and DQ B1* 201 have the strongest association with type1 diabetes that have shown after refinement in genotyping of HLA loci. It has been found that the amino acid in position 57 of the N-terminal β-1 domain of the HLA-DQ β chain is directly related to susceptibility of type 1 diabetes although analysis of DNA sequence from patients with type 1 diabetes mellitus has not so far shown unique class II sequence.2 If individuals undergone infection or toxic insult, their immune system generally susceptible to develop a vigorous autoimmune process either against molecule of β cell resembling the viral protein or against altered pancreatic β cell antigens is felt to develop immune mediated type 1 diabetes mellitus. Although other types of islets cell are inexplicably spared from the autoimmune process though they are functionally and embryological similar to β cells and expresses maximum of the similar proteins in β cells. By the process called “Insulitis” the pancreatic islets are infiltrated with leucocytes.3
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