Masuda Yuya, Tamura Shogo, Matsuno Kazuhiko, Nagasawa Ayumi, Hayasaka Koji, Shimizu Chikara, Moriyama Takanori
Graduate School of Health Sciences, Hokkaido University, Sapporo, Hokkaido, Japan; Division of Laboratory and Transfusion Medicine, Hokkaido University Hospital, Sapporo, Hokkaido, Japan.
Department of Clinical Laboratory of Medicine, Faculty of Medicine, University of Yamanashi, Chuo, Yamanashi, Japan; Research Fellow of the Japan Society for the Promotion of Science, Tokyo, Japan.
Thromb Res. 2015 May;135(5):951-7. doi: 10.1016/j.thromres.2015.03.002. Epub 2015 Mar 8.
CD36 is a multifunctional glycoprotein expressed on various human cells, including platelets and monocytes. Five CD36 gene mutations (C268T, 949insA, 329-339del, 1228-1239del and 629-631del/insAAAAC) are mainly responsible for CD36-deficient phenotypes in Japan. It has also been reported that platelet CD36 expression varies widely among normal phenotype individuals. Here, in order to obtain further insight into CD36 expression, we investigated the association between platelet and monocyte CD36 expression levels and defective mutations in the Japanese population.
Blood samples were collected from 135 healthy Japanese volunteers. CD36 expression levels on platelets and monocytes were quantitatively analyzed by flow cytometry. Real-time PCR, PCR-RFLP and allele-specific PCR were performed to detect mutant genotypes.
In this population, we found 2 (1.5%) and 9 (6.7%) CD36-deficient subjects as type I and type II, respectively. Among normal phenotype subjects, CD36 expression levels ranged from 1,259 to 11,002 (4,487±2,017) molecules/platelet and from 211 to 5,150 (1,628±986) molecules/monocyte. Genotyping assay showed that heterozygotes with the defective mutations were present in normal (12.9%) and type II-deficient (66.7%) subjects, and that these heterozygous mutations led to decreases in CD36 surface expression on platelets and monocytes.
Heterozygous CD36 mutations, previously known to lead to deficiency in this molecule, are one of the factors responsible for the diversity of CD36 surface expression levels on platelets and monocytes in normal phenotype subjects.
CD36是一种在包括血小板和单核细胞在内的多种人类细胞上表达的多功能糖蛋白。在日本,五种CD36基因突变(C268T、949insA、329 - 339del、1228 - 1239del和629 - 631del/insAAAAC)是导致CD36缺陷表型的主要原因。也有报道称,正常表型个体的血小板CD36表达差异很大。在此,为了进一步了解CD36的表达情况,我们研究了日本人群中血小板和单核细胞CD36表达水平与缺陷突变之间的关联。
从135名健康日本志愿者采集血样。通过流式细胞术对血小板和单核细胞上的CD36表达水平进行定量分析。进行实时PCR、PCR - RFLP和等位基因特异性PCR以检测突变基因型。
在该人群中,我们分别发现2名(1.5%)和9名(6.7%)CD36缺陷受试者,分别为I型和II型。在正常表型受试者中,CD36表达水平范围为每血小板1259至11002(4487±2017)个分子,每单核细胞211至5150(1628±986)个分子。基因分型检测显示,正常(12.9%)和II型缺陷(66.7%)受试者中存在携带缺陷突变的杂合子,并且这些杂合突变导致血小板和单核细胞上CD36表面表达降低。
先前已知导致该分子缺陷的杂合CD36突变是正常表型受试者血小板和单核细胞上CD36表面表达水平多样性的原因之一。
