Three novel mutations of the CIITA gene in MHC class II-deficient patients with a severe immunodeficiency

Four transacting genes, CHTA, RFXANK, RFX5, and RFXAP, control coordinate MHC II expression. In humans, defects in these genes result in the absence of MHC II expression and thus a combined immunodeficency. CIITA is considered to be a master MHC II regulator and is responsible for the defect in complementation group A. Eight such affected families have been reported. We investigated the molecular basis of the defect in three patients in these families, all presenting a severe immunodeficiency. CIITA transcripts were detected in all three patients but in one at an abnormally low level. Three novel heterozygous mutations of CIITA were found in patients SP and RC. One SP CIITA allele contained a nonsense mutation, G2178A, leading to a premature stop codon and the other allele in SP was found not to be expressed, In patient RC, two in-frame deletions were detected: one of the nucleotides 3003-3084 corresponding to the exon coding from Leu964 to Asp991, in the paternal allele, and a CATdel3193-5 of the isoleucine codon at position 1027, in the maternal allele. Transfection of a CIITA-deficient cell line with the recombinant CATdel3193-5-CIITA cDNA revealed a loss of function for this mutant and retention of the protein in the cytoplasm. No mutations were detected in the 4.5-kb cDNA from patient OK but the level of CIITA transcript was found to be profoundly decreased. However, promoters III and IV were not affected. This last case represents the first described CIITA dysfunction due to putative mutation(s) in cis regulatory sequences of CIITA

Genetic and molecular definition of complementation group D in MHC class II deficiency

Four complementation groups, A, B, C and D, have been described among cell lines defective in the coordinate expression of MHC class II genes. These include cell lines established from patients affected with MHC class II deficiency and experimentally generated mutant cell lines. Group D, in contrast to the other groups, was for a long time represented only by the 6.1.6 mutant cell line. The gene responsible for the defect in this group, RFXAP, recently was cloned and found to be mutated in the 6.1.6 cell line and in three patients. Here we report fusion experiments in several new HLA class II-deficient patients, completing the classification of the majority of known patients into the four complementation groups. Patients from five unrelated families were classified in complementation group D, while nine others fall into complementation groups A and B. None of the patients defined a new complementation group. Full correction of MHC class II expression was obtained in cells from patients belonging to group D by transfection with the RFXAP cDNA. The RFXAP coding region was found to be mutated in all patients. Mutations were found to be recurrent since only three different mutations have been found in the eight unrelated families reported to date

Founder effect for a 26-bp deletion in the RFXANK gene in North African major histocompatibility complex class II-deficient patients belonging to complementation group B

Expression of major histocompatibility complex (MHC) class II genes is controlled at the transcriptional level by at least four trans-acting genes, CIITA, RFXANK, RFX5, and RFXAP. Defects in these regulatory genes result in the absence of MHC class II molecule expression and, thereby, cause a combined immunodeficiency. MHC class II deficiency is inherited as an autosomal recessive trait. Since the first description of the disease, about 70 patients from 50 families have been reported. Forty-three of these families have been classified into four complementation groups: A, B, C, and D. In the largest group, B, the majority of patients are of North African origin. In two of these patients, the same mutation in the RFXANK gene (752delG-25) was identified. We performed a mutation analysis in 20 additional patients belonging to complementation group B and detected the 752delG-25 mutation in 17. All of these patients are of North African origin. A founder effect for this mutation was documented, since all tested patients, except one, display a common haplotype spanning the RFXANK locus

Cernunnos, a novel V(D)J recombination /non homologus end-joining factor, is mutated in human T and B cell immunodeficiency associated with microcephaly.

DNA double-strand breaks (DSBs) occur at random upon genotoxic stresses and represent obbligatory intermediates during physiological DNA rearrangement events such as the V(D)J recombination in the immune system. DSBs, which are among the most toxic DNA lesions, are preferentially repaired by the nonhomologous end-joining (NHEJ) pathway in higher eukaryotes. Failure to properly repair DSBs results in genetic instability, developmental delay, and various forms of immunodeficiency. Here we describe five patients with growth retardation, microcephaly, and immunodeficiency characterized by a profound T + B lymphocytopenia. An increased cellular sensitivity to ionizing radiation, a defective V(D)J recombination, and an impaired DNA-end ligation process both in vivo and in vitro are indicative of a general DNA repair defect in these patients. All five patients carry mutations in the Cernunnos gene, which was identified through cDNA functional complementation cloning. Cernunnos/XLF represents a novel DNA repair factor essential for the NHEJ pathway

Clinical, immunological and genetic features in eleven Algerian patients with major histocompatibility complex class II expression deficiency

<p>Abstract</p> <p>Presenting processed antigens to CD4+ lymphocytes during the immune response involves major histocompatibility complex class II molecules. MHC class II genes transcription is regulated by four transcription factors: CIITA, RFXANK, RFX5 and RFXAP. Defects in these factors result in major histocompatibility complex class II expression deficiency, a primary combined immunodeficiency frequent in North Africa. Autosomal recessive mutations in the <it>RFXANK</it> gene have been reported as being the principal defect found in North African patients with this disorder. In this paper, we describe clinical, immunological and genetic features of 11 unrelated Algerian patients whose monocytes display a total absence of MHC class II molecules. They shared mainly the same clinical picture which included protracted diarrhoea and respiratory tract recurrent infections. Genetic analysis revealed that 9 of the 11 patients had the same RFXANK founder mutation, a 26 bp deletion (named I5E6-25_I5E6+1, also known as 752delG26). Immunological and genetic findings in our series may facilitate genetic counselling implementation for Algerian consanguineous families. Further studies need to be conducted to determine 752delG26 heterozygous mutation frequency in Algerian population.</p