Thiamine intestinal transport and related issues: recent aspects.

Gianguido Rindi, U. Laforenza
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引用次数: 80

Abstract

In the intestinal lumen thiamine is in free form and very low concentrations. Absorption takes place primarily in the proximal part of the small intestine by means of a dual mechanism, which is saturable at low (physiological) concentrations and diffusive at higher. Thiamine undergoes intracellular phosphorylation mainly to thiamine pyrophosphate, while at the serosal side only free thiamine is present. Thiamine uptake is enhanced by thiamine deficiency, and reduced by thyroid hormone and diabetes. The entry of thiamine into the enterocyte, as evaluated in brush border membrane vesicles of rat small intestine in the absence of H+ gradient, is Na+- and biotransformation-independent, completely inhibited by thiamine analogs and reduced by ethanol administration and aging. The transport involves a saturable mechanism at low concentrations of vitamin and simple diffusion at higher. Outwardly oriented H+ gradients enhance thiamine transport, whose saturable component is a Na+-independent electroneutral uphill process utilizing energy supplied by the H+ gradient, and involving a thiamine/ H+ 1:1 stoichiometric exchange. The exit of thiamine from the enterocyte, as evaluated in basolateral membrane vesicles, is Na+-dependent, directly coupled to ATP hydrolysis by Na+-K+-ATPase, and inhibited by thiamine analogs. Transport of thiamine by renal brush border membrane vesicles is similar to the intestinal as far as both H+ gradient influence and specificity are concerned. In the erythrocyte thiamine transport is a Na+-independent, electroneutral process yet with two components: saturable, prevailing at low thiamine concentrations, and diffusive at higher. The saturable (specific) component is missing in patients of the rare disease known as thiamine-responsive megaloblastic anaemia (TRMA), producing a general disturbance of thiamine transport up to thiamine deficiency. The TRMA gene is located in chromosome 1q23.3. Recently, the thiamine transporter has been cloned: it is a protein of 497 amino acid residues with high homology with the reduced-folate transporter.
硫胺素肠道转运及其相关问题:最新进展。
在肠腔中硫胺素以游离形式存在,浓度很低。吸收主要发生在小肠近端,通过双重机制,在低(生理)浓度时是饱和的,在高浓度时是扩散的。硫胺素主要在细胞内磷酸化为焦磷酸硫胺素,而浆膜侧仅存在游离硫胺素。硫胺素缺乏会增加硫胺素的摄取,而甲状腺激素和糖尿病会降低硫胺素的摄取。在没有H+梯度的大鼠小肠刷状边界膜泡中,硫胺素进入肠细胞是不依赖于Na+和生物转化的,完全被硫胺素类似物抑制,并被乙醇给药和老化减少。在维生素浓度低时,转运机制为饱和机制,在维生素浓度高时,转运机制为简单扩散机制。向外的H+梯度增强了硫胺素的运输,其饱和组分是一个不依赖Na+的电中性上坡过程,利用H+梯度提供的能量,并涉及硫胺素/ H+ 1:1的化学计量交换。在肠细胞的基底侧膜囊中,硫胺素的出口是Na+依赖的,直接与Na+-K+-ATP酶水解ATP结合,并被硫胺素类似物抑制。就H+梯度影响和特异性而言,肾刷状缘膜小泡对硫胺素的转运与肠道相似。在红细胞中,硫胺素运输是一个不依赖于Na+的电中性过程,但有两个组成部分:饱和的,在低硫胺素浓度下普遍存在,在高硫胺素浓度下扩散。罕见疾病——硫胺素反应性巨幼细胞贫血(TRMA)患者缺少饱和(特异性)成分,导致硫胺素运输普遍紊乱,直至硫胺素缺乏。TRMA基因位于染色体1q23.3。最近,人们克隆出了硫胺素转运蛋白:它是一个含有497个氨基酸残基的蛋白,与叶酸还原转运蛋白具有高度同源性。
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