School of Graduate Studies, State University of New York Downstate Medical Center, Brooklyn, New York 11203, USA.
FASEB J. 2013 Aug;27(8):2988-94. doi: 10.1096/fj.13-230185. Epub 2013 Apr 19.
The membrane receptor TCblR/CD320 binds transcobalamin (TC) saturated with vitamin B12 [cobalamin (Cbl)] and mediates cellular uptake of the vitamin. The specificity of TC for Cbl and of the receptor for TC-Cbl ensures efficient uptake of Cbl into cells. The high-affinity interaction of TCblR with TC-Cbl (Ka=10 nM(-1)) was investigated using deletions and mutations of amino acid sequences in TCblR. Only the extracellular region (aa 32-229) is needed for TC-Cbl binding, but the N-glycosylation sites (N126, N195, and N213) are of no importance for this function. Deleting the cysteine-rich region (aa 95-141) that separates the two low-density lipoprotein receptor type A (LDLR-A) domains does not affect TC-Cbl binding (Ka = 19-24 nM(-1)). The two LDLR-A domains (aa 54-89 and 132-167) with the negatively charged acidic residues involved in Ca(2+) binding are critical determinants of ligand binding. The cytoplasmic tail is apparently crucial for internalization of the ligand. Within this region, the RPLGLL motif and the PDZ binding motifs (QERL/KESL) appear to be involved in initiating and completing the process of ligand internalization. Mutations and deletions of these regions involved in binding and internalization of TC-Cbl are likely to produce the biochemical and clinical phenotype of Cbl deficiency.
膜受体 TCblR/CD320 结合与维生素 B12[钴胺素 (Cbl)]饱和的转钴胺素 (TC),并介导维生素的细胞摄取。TC 对 Cbl 的特异性和受体对 TC-Cbl 的特异性确保了 Cbl 高效进入细胞。使用 TCblR 中氨基酸序列的缺失和突变研究了 TCblR 与 TC-Cbl 的高亲和力相互作用。仅 TC-Cbl 结合需要细胞外区域(aa 32-229),但 N-糖基化位点(N126、N195 和 N213)对该功能不重要。删除将两个 LDLR-A 结构域分开的富含半胱氨酸的区域(aa 95-141)不会影响 TC-Cbl 结合(Ka = 19-24 nM(-1))。涉及 Ca(2+)结合的带负电荷的酸性残基的两个 LDLR-A 结构域(aa 54-89 和 132-167)是配体结合的关键决定因素。细胞质尾巴显然对配体的内化至关重要。在该区域内,RPLGLL 基序和 PDZ 结合基序(QERL/KESL)似乎参与启动和完成配体内化过程。TC-Cbl 结合和内化涉及的这些区域的突变和缺失可能产生 Cbl 缺乏的生化和临床表型。
