【佳學(xué)基因檢測】免疫力基因檢測：CD3δ突變與免疫缺陷

免疫力大小基因檢測導(dǎo)讀：

檢討的目的

該綜述描述了從賊近描述的人類免疫缺陷中推斷出的CD3δ亞單位在人類T細(xì)胞發(fā)育中的作用的理解進(jìn)展。該綜述還將CD3δ缺陷與其他人類CD3亞單位缺陷以及相應(yīng)的動物模型進(jìn)行了比較。

賊近的發(fā)現(xiàn)

在描述人類CD3δ缺陷時，這篇綜述表明，由于該基因胞外區(qū)的突變，在2-3個月內(nèi)出現(xiàn)嚴(yán)重病毒感染的T細(xì)胞嚴(yán)重缺失的患者缺乏CD3δ。通過使用大規(guī)模基因篩查和微陣列技術(shù)，比較患者和正常胸腺細(xì)胞，發(fā)現(xiàn)了遺傳畸變。在人類中，CD3δ的缺失導(dǎo)致胸腺細(xì)胞發(fā)育在雙負(fù)向雙正轉(zhuǎn)變階段有效停滯，γδT細(xì)胞受體陽性T細(xì)胞的發(fā)育也受到損害。

總結(jié)

與病情較輕的CD3γ或CD3ε缺乏癥患者不同，CD3δ缺乏癥患者在嬰兒早期對感染具有嚴(yán)重的致死易感性。正如所料，這種嚴(yán)重的免疫缺陷通過異基因骨髓移植得以治好。與小鼠CD3δ相比−/−, CD3δ保留了正常的γδT細(xì)胞受體陽性T細(xì)胞群，僅部分影響雙陽性胸腺細(xì)胞向單陽性胸腺細(xì)胞的發(fā)育轉(zhuǎn)變，人類CD3δ對于αβ和γδT細(xì)胞受體陽性T細(xì)胞譜系的發(fā)育似乎更為關(guān)鍵。研究還新穎表明，利用微陣列技術(shù)將相關(guān)患者的基因與正常組織進(jìn)行比較，有助于發(fā)現(xiàn)遺傳性疾病的遺傳基礎(chǔ)。

Purpose of review

The review describes advances in understanding the role of the CD3δ subunit in human T-cell development as deduced from a recently described human immunodeficiency. The review also compares CD3δ deficiency with other human CD3 subunit deficiencies and with corresponding animal models.

Recent findings

In describing CD3δ deficiency in humans this review shows that patients with profound T-cell depletion, who present at 2-3 months with severe viral infection, lack CD3δ as a result of a mutation in the extracellular domain of this gene. The genetic aberration was discovered by comparing patients' and normal thymocytes, using mass gene screening with the microarray technique. In humans the absence of CD3δ results in a complete arrest in thymocyte development at the stage of double negative to double positive transition and the development of γδT-cell receptor-positive T cells is also impaired.

Summary

Unlike patients with CD3γ or CD3ε deficiency who have a milder condition, patients with CD3δ deficiency present with severe lethal susceptibility to infections during early infancy. As expected, this profound immunodeficiency was cured with an allogenic bone marrow transplantation. In contrast to murine CD3δ^−/−, which retains a normal γδT-cell receptor-positive T-cell population and only partly affects the developmental transition of double positive to single positive thymocytes, CD3δ in humans appears to be more critically required for the development of both αβ and γδT-cell receptor-positive T-cell lineages. The studies also show for the first time that comparing relevant patients' with normal tissue using microarray technology can aid in the discovery of the genetic basis of inherited disorders.

(責(zé)任編輯：佳學(xué)基因)