VbetaDJbetaCbeta 基因转录后沉默导致哺乳动物淋巴细胞 TCRbeta 等位基因排斥。
Posttranscriptional silencing of VbetaDJbetaCbeta genes contributes to TCRbeta allelic exclusion in mammalian lymphocytes.
机构信息
Immunology Graduate Group, University of Pennsylvania School of Medicine, Philadelphia, PA 19104, USA.
出版信息
J Immunol. 2010 Jul 15;185(2):1055-62. doi: 10.4049/jimmunol.0903099. Epub 2010 Jun 18.
Feedback inhibition of V(D)J recombination enforces Ag receptor allelic exclusion in mammalian lymphocytes. Yet, in-frame VbetaDJbeta exons can assemble on both alleles in human and mouse alphabeta T lineage cells. To elucidate mechanisms that enforce TCRbeta allelic exclusion in such cells, we analyzed Vbeta expression and rearrangement in mice containing a functional Vbeta14DJbeta1.5Cbeta1 gene (Vbeta14(NT)) and/or Vbeta8.2DJbeta1.1Cbeta1 transgene (Vbeta8(Tg)). The majority of Vbeta14(NT) and Vbeta8(Tg) alphabeta T lineage cells expressed only Vbeta14(+) or Vbeta8(+) TCRbeta-chains, respectively, and lacked Vbeta rearrangements on wild-type TCRbeta loci. However, endogenous Vbeta rearrangements and alphabeta T lineage cells expressing endogenous Vbetas from wild-type alleles alone or with the prerearranged Vbeta in cell surface TCRbeta-chains were observed in Vbeta14(NT) and Vbeta8(Tg) mice. Although nearly all Vbeta8(Tg):Vbeta14(NT) thymocytes and splenic alphabeta T cells expressed Vbeta8(+) TCRbeta-chains, only half of these lymphocytes expressed Vbeta14(+) TCRbeta-chains, even though similar steady-state levels of Vbeta14(NT) mRNA were expressed in Vbeta8(+)Vbeta14(+) and Vbeta8(+)Vbeta14(-) populations. Our data demonstrated that posttranscriptional silencing of functionally assembled endogenous VbetaDJbetaCbeta genes can enforce TCRbeta allelic exclusion and reveal another mechanism that contributes to the development of lymphocytes with monospecific Ag receptors.
反馈抑制 V(D)J 重组在哺乳动物淋巴细胞中强制 Ag 受体等位基因排斥。然而,在人类和小鼠的αβ T 谱系细胞中,框内 VβDJβ 外显子可以在两个等位基因上组装。为了阐明在这些细胞中强制 TCRβ 等位基因排斥的机制,我们分析了含有功能性 Vβ14DJβ1.5Cβ1 基因(Vβ14(NT))和/或 Vβ8.2DJβ1.1Cβ1 转基因(Vβ8(Tg))的小鼠中的 Vβ 表达和重排。大多数 Vβ14(NT)和 Vβ8(Tg)αβ T 谱系细胞分别仅表达 Vβ14(+)或 Vβ8(+)TCRβ 链,并且在野生型 TCRβ 基因座上缺乏 Vβ 重排。然而,在 Vβ14(NT)和 Vβ8(Tg)小鼠中观察到内源性 Vβ 重排和仅表达野生型等位基因内源性 Vβ 的αβ T 谱系细胞,或者与细胞表面 TCRβ 链中预先重排的 Vβ 一起。尽管几乎所有 Vβ8(Tg):Vβ14(NT)胸腺细胞和脾αβ T 细胞表达 Vβ8(+)TCRβ 链,但这些淋巴细胞中只有一半表达 Vβ14(+)TCRβ 链,即使在 Vβ8(+)Vβ14(+)和 Vβ8(+)Vβ14(-)群体中表达相似的 Vβ14(NT)mRNA 稳态水平。我们的数据表明,功能组装的内源性 VβDJβCβ 基因的转录后沉默可以强制 TCRβ 等位基因排斥,并揭示了另一种有助于具有单特异性 Ag 受体的淋巴细胞发育的机制。
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