Zhao C, Wilson M C, Schuit F, Halestrap A P, Rutter G A
Department of Biochemistry, School of Medical Sciences, University of Bristol, UK.
Diabetes. 2001 Feb;50(2):361-6. doi: 10.2337/diabetes.50.2.361.
Transport of lactate across the plasma membrane of pancreatic islet beta-cells is slow, as described by Sekine et al. (J Biol Chem 269:4895-4902, 1994), which is a feature that may be important for normal nutrient-induced insulin secretion. Although eight members of the monocarboxylate transporter (MCT) family have now been identified, the expression of these isoforms within the exocrine and endocrine pancreas has not been explored in detail. Using immunocytochemical analysis of pancreatic sections fixed in situ, we demonstrated three phenomena. First, immunoreactivity of the commonly expressed lactate transporter isoform MCT1 is near zero in both alpha- and beta-cells but is abundant in the pancreatic acinar cell plasma membrane. No MCT2 or MCT4 was detected in any pancreatic cell type. Second, Western analysis of purified beta- and non-beta-cell membranes revealed undetectable levels of MCT1 and MCT4. In derived beta-cell lines, MCT1 was absent from MIN6 cells and present in low amounts in INS-1 cell membranes and at high levels in RINm5F cells. MCT4 was weakly expressed in MIN6 beta-cells. Third, CD147, an MCT-associated chaperone protein, which is closely colocalized with MCT1 on acinar cell membranes, was absent from islet cell membranes. CD147 was also largely absent from MIN6 and INS-1 cells but abundant in RINm5F cells. Low expression of MCT1, MCT2, and MCT4 contributes to the enzymatic configuration of beta-cells, which is poised to ensure glucose oxidation and the generation of metabolic signals and may also be important for glucose sensing in islet non-beta-cells. MCT overexpression throughout the islet could contribute to deranged hormone secretion in some forms of type 2 diabetes.
如关根等人(《生物化学杂志》269:4895 - 4902, 1994)所述,乳酸跨胰岛β细胞膜的转运缓慢,这一特性可能对正常营养物质诱导的胰岛素分泌很重要。尽管现已鉴定出单羧酸转运体(MCT)家族的八个成员,但这些异构体在外分泌和内分泌胰腺中的表达尚未得到详细研究。通过对原位固定的胰腺切片进行免疫细胞化学分析,我们证实了三种现象。第一,常见表达的乳酸转运体异构体MCT1在α细胞和β细胞中的免疫反应性几乎为零,但在胰腺腺泡细胞质膜中丰富。在任何胰腺细胞类型中均未检测到MCT2或MCT4。第二,对纯化的β细胞和非β细胞膜进行的蛋白质印迹分析显示,未检测到MCT1和MCT4的水平。在衍生的β细胞系中,MIN6细胞中不存在MCT1,INS - 1细胞膜中含量低,而RINm5F细胞膜中含量高。MCT4在MIN6β细胞中弱表达。第三,MCT相关伴侣蛋白CD147在胰岛细胞膜中不存在,它在腺泡细胞膜上与MCT1紧密共定位。MIN6和INS - 1细胞中也基本不存在CD147,但在RINm5F细胞中丰富。MCT1、MCT2和MCT4的低表达有助于β细胞的酶促构型,这有助于确保葡萄糖氧化和代谢信号的产生,对胰岛非β细胞中的葡萄糖感知也可能很重要。胰岛中MCT的过度表达可能导致某些形式的2型糖尿病中激素分泌紊乱。
