马红细胞中氨基酸转运的异质性：遗传性转运变异的详细动力学分析。

Heterogeneity of amino acid transport in horse erythrocytes: a detailed kinetic analysis of inherited transport variation.

作者信息

Fincham D A, Mason D K, Paterson J Y, Young J D

机构信息

Department of Biochemistry, Faculty of Medicine, Chinese University of Hong Kong, Shatin, N.T.

出版信息

J Physiol. 1987 Aug;389:385-409. doi: 10.1113/jphysiol.1987.sp016662.

DOI:10.1113/jphysiol.1987.sp016662

PMID:3681732

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1192086/

Abstract

Thoroughbred horses were divisible into five distinct amino acid transport subgroups on the basis of their erythrocyte permeability to L-alanine, measured uptake rates ranging from 5 to 625 mumol l cells-1 h-1 (0.2 mM-extracellular L-alanine, 37 degrees C). 2. Erythrocytes from animals belonging to the lowest L-alanine permeability subgroup (5-15 mumol l cells-1 h-1) (transport-deficient type) exhibited slow nonsaturable transport of this amino acid. In contrast, cells from horses of the four transport-positive subgroups possessed additional high-affinity (apparent L-alanine Km (Michaelis constant) congruent to 0.3 mM) and/or low-affinity (apparent L-alanine Km congruent to 13 mM) Na+-independent transport routes selective for L-neutral amino acids of intermediate size. The two transporters, designated systems asc1 and asc2, respectively, also possessed a significant affinity for dibasic amino acids. 3. Amino acid transport activity in horse erythrocytes behaved as if controlled by three co-dominant alleles (s, h and l), where s is a silent allele, and h and l code for the functional presence of systems asc1 and asc2, respectively. 4. At physiological temperature, system asc1 operated preferentially in an exchange mode. In contrast, system asc2 did not participate in exchange reactions at 37 degrees C, but did exhibit significant trans-acceleration at 25 degrees C. 5. Reduction of the incubation temperature also resulted in dramatic decreases in apparent Km and Vmax for L-alanine uptake by system asc2, whereas the effects of temperature on system asc1 were much less marked. At 5 degrees C the two transporters exhibited equivalent kinetic constants for L-alanine influx. L-Alanine uptake by transport-deficient cells was relatively insensitive to temperature. Influx by this route may represent the ground-state permeability of the lipid bilayer. 6. The effects of low temperature on system asc2 suggest a preferential impairment of the mobility of the unloaded carrier relative to that of the loaded transporter. Similarly, the different kinetic properties of systems asc1 and asc2 at physiological temperature are attributed to a difference in the mobilities of the empty carriers, this difference being minimized at 5 degrees C.

摘要

根据纯血马红细胞对L-丙氨酸的通透性，可将其分为五个不同的氨基酸转运亚组，测得的摄取速率范围为5至625 μmol·l细胞⁻¹·h⁻¹（细胞外L-丙氨酸浓度为0.2 mM，温度为37℃）。2. 来自最低L-丙氨酸通透性亚组（5 - 15 μmol·l细胞⁻¹·h⁻¹）（转运缺陷型）动物的红细胞对该氨基酸表现出缓慢的非饱和转运。相比之下，来自四个转运阳性亚组马匹的细胞具有额外高亲和力（表观L-丙氨酸Km（米氏常数）约为0.3 mM）和/或低亲和力（表观L-丙氨酸Km约为13 mM）的、对中等大小L-中性氨基酸有选择性的不依赖Na⁺的转运途径。这两种转运体分别命名为系统asc1和asc2，对二碱基氨基酸也有显著亲和力。3. 马红细胞中的氨基酸转运活性表现得好像受三个共显性等位基因（s、h和l）控制，其中s是沉默等位基因，h和l分别编码系统asc1和asc2的功能存在。4. 在生理温度下，系统asc1优先以交换模式运行。相比之下，系统asc2在37℃时不参与交换反应，但在25℃时确实表现出显著的转加速。5. 孵育温度降低也导致系统asc2对L-丙氨酸摄取的表观Km和Vmax显著降低，而温度对系统asc1的影响则小得多。在5℃时，两种转运体对L-丙氨酸内流表现出相同的动力学常数。转运缺陷细胞对L-丙氨酸的摄取对温度相对不敏感。通过该途径的内流可能代表脂质双层的基态通透性。6. 低温对系统asc2的影响表明，相对于负载转运体，卸载载体的流动性优先受损。同样，系统asc1和asc2在生理温度下的不同动力学特性归因于空载体流动性的差异，这种差异在5℃时最小化。