Lack of detectable defect in DNA double-strand break repair and DNA-dependent protein kinase activity in radiosensitive human severe combined immunodeficiency fibroblasts.
- Abstract:
- The initial step of the V(D)J recombination occurs through the generation of a DNA double-strand break (dsb). Defects in the DNA-dependent protein kinase complex (DNA-PK) result in an inability to perform either V(D)J recombination or any dsb repair effectively. The human autosomal T-B-severe combined immunodeficiency (SCID) condition is characterized by an absence of both B and T lymphocytes and is accompanied in some patients by an increase in gamma-ray sensitivity (T-B-RS SCID) comparable to that found in mouse SCID cells. We show here that cells from six patients with T-B-RS SCID had normal DNA-dsb repair kinetics. Furthermore, DNA-PK activity was present in extracts from these human T-B-RS SCID fibroblasts. We therefore conclude that some human T-B-RS SCID disorders are not caused by a defect in an essential DNA-PK component.
- Authors:
- N Nicolas, NJ Finnie, M Cavazzana-Calvo, D Papadopoulo, F Le Deist, A Fischer, SP Jackson, JP de Villartay
- Journal:
- Eur J Immunol
- Citation info:
- 26(5):1118-1122
- Publication date:
- 1st May 1996
- Full text
- DOI