Fluoride toxicity and new-onset diabetes in Finland: a hypothesis -

M. Irmak, Ilknur Senver Ozcelik, A. Kaya
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Abstract

The incidence of type 1 diabetes (T1D) has increased substantially in Finland, but the exact trigger for the onset of T1D is still unknown. We know that use of amoxicillin and anti-cariogenic fluoride tablets is a common practice for children in Finland. It seems that beta-cell destruction is initiated by modification of the proinsulin by combined effects of fluoride (F2) and amoxicillin. Amoxicillin especially when used together with clavulanic acid results in an acid environment around the beta-cells that promotes the conversion of F2 to hydrogen fluoride (HF). Unlike F2, HF can diffuse easily into the beta-cell cytosol. Because the cytosol has a neutral pH, virtually all HF reverts to F2 in the cytosol and F2 cannot easily diffuse out of the cell. Exposure to excess F2 promotes proinsulin covalent dimerization and simultaneously hyperexpression of MHC Class I molecules. Proinsulin dimers then migrate to the cell membrane with MHC class I molecules, accumulate at the beta-cell membrane and produces a powerful immunogenic stimulus for the cytotoxic T-cells. Production of cytotoxic cytokines from the infiltrating T-cells initiates the destruction of beta-cells. In Finnish children, this might be helped along by a higher beta-cell activity and by a reactive thymus-dependent immune system induced by higher levels of thyroid hormones and calcitonin respectively. After repeated similar attacks, more and more effector T-cells are raised and more and more beta-cells are destroyed, and clinical diabetes occurs.
芬兰氟化物毒性与新发糖尿病:一个假设
芬兰1型糖尿病(T1D)的发病率大幅上升,但T1D发病的确切诱因尚不清楚。我们知道,使用阿莫西林和抗龋齿氟化物片是芬兰儿童的普遍做法。似乎β细胞的破坏是由氟化物(F2)和阿莫西林的联合作用对胰岛素原的修饰引起的。阿莫西林,特别是当与克拉维酸一起使用时,会在β细胞周围形成酸性环境,促进F2向氟化氢(HF)的转化。与F2不同,HF可以很容易地扩散到β细胞的细胞质中。由于胞质溶胶的pH值为中性,几乎所有的HF在胞质溶胶中都还原为F2,而F2不易扩散出细胞。暴露于过量的F2会促进胰岛素原共价二聚化,同时MHC I类分子的高表达。胰岛素原二聚体随后随MHC I类分子迁移到细胞膜,在β细胞膜积聚,并对细胞毒性t细胞产生强大的免疫原性刺激。浸润的t细胞产生细胞毒性细胞因子,开始破坏β细胞。在芬兰儿童中,较高的β细胞活性和较高水平的甲状腺激素和降钙素分别诱导的胸腺依赖性反应性免疫系统可能有助于这一点。在多次类似的攻击后,越来越多的效应t细胞升高,越来越多的β细胞被破坏,从而出现临床糖尿病。
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