Abstract
Major histocompatibility complex class II (MHC II) is an essential immune regulatory molecule that plays an important role in antigen presentation and T-cell development. Abnormal MHC II expression can lead to immunodeficiency, clinically termed as type II bare lymphocyte syndrome (BLS), which usually results from mutations in the MHC II transactivator (CIITA) and other coactivators. Here, we present a new paradigm for MHC II deficiency in mice that involves a spontaneous point mutation on H2-Aa. A significantly reduced population of CD4+ T cells was observed in mice obtained from the long-term homozygous breeding of autophagy-related gene microtubule-associated protein 1 light chain 3 β (Map1lc3b, Lc3b) knockout mice; this phenotype was not attributed to the original knocked-out gene. MHC II expression was generally reduced, together with a marked deficiency of H2-Aa in the immune cells of these mice. Using cDNA and DNA sequencing, a spontaneous H2-Aa point mutation that led to false pre-mRNA splicing, deletion of eight bases in the mRNA, and protein frameshift was identified in these mice. These findings led to the discovery of a new type of spontaneous MHC II deficiency and provided a new paradigm to explain type II BLS in mice.
Highlights
As an important immune regulator, major histocompatibility complex class II (MHC II), which is a heterodimer consisting of an a chain and a b chain, plays a key role in the immune response [1]
The population of CD4+ T cells was significantly decreased in the thymus (Figures 1A, B) and spleen (Figures 1C, D) of these mice
This phenotype was not observed in the original mice, which were not products of long-term homozygous breeding (Figures S1A–D). This indicated that the impairment of CD4+ T cells in these mice was independent of the original gene knockout
Summary
As an important immune regulator, major histocompatibility complex class II (MHC II), which is a heterodimer consisting of an a chain and a b chain, plays a key role in the immune response [1]. MHC II genes are constitutively expressed in immune cells such as B cells, dendritic cells, and thymus epithelial cells [2]. The expression of MHC II in B and dendritic cells is essential for antigen presentation [3], while MHC II expression in thymus epithelial cells contributes to CD4+ T-cell development [4]. Macrophages can express a higher level of MHC II following stimulation with interferon-g (IFN-g) [5]. The aberrant expression of class II proteins has been implicated in immune dysfunction, and a lack of MHC II causes an immunodeficiency called type II BLS [6]. CD4+ T cells are an important T-cell subtype.
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