Publication details

Gross deletions involving IGHM, BTK, or Artemis: a model for genomic lesions mediated by transposable elements.

Authors

VAN ZELM Menno. C GEERTSEMA Corinne NIEUWENHUIS Nicole DE RIDDER Dick CONLEY Mary Ellen SCHIFF Claudie TEZCAN Ilhan BERNATOWSKA Ewa HARTWIG Nico G. SANDERS Elisabeth A.M. LITZMAN jiří KONDRATENKO Irina VAN DONGEN Jacques J.M. VAN DER BURG Mirjam

Year of publication 2008
Type Article in Periodical
Magazine / Source Genetická a funkční charakterizace rozsáhlých delecí gentů IGHM, BTK a Artemis u pacientů s vrozenou agamaglobulinenmií.
MU Faculty or unit

Faculty of Medicine

Citation
Field Immunology
Keywords BTK; Artemis IGHM; gross deletion; immunodefeicncy
Description Most genetic disruptions underlying human disease are microlesions, whereas gross lesions are rare with gross deletions being most frequently found (6%). Similar observations have been made in primary immunodeficiency genes, such as BTK, but for unknown reasons the IGHM and DCLRE1C (Artemis) gene defects frequently represent gross deletions ( approximately 60%). We characterized the gross deletion breakpoints in IGHM-, BTK-, and Artemis-deficient patients. The IGHM deletion breakpoints did not show involvement of recombination signal sequences or immunoglobulin switch regions. Instead, five IGHM, eight BTK, and five unique Artemis breakpoints were located in or near sequences derived from transposable elements (TE). The breakpoints of four out of five disrupted Artemis alleles were located in highly homologous regions, similar to Ig subclass deficiencies and Vh deletion polymorphisms. Nevertheless, these observations suggest a role for TEs in mediating gross deletions. The identified gross deletion breakpoints were mostly located in TE subclasses that were specifically overrepresented in the involved gene as compared to the average in the human genome. This concerned both long (LINE1) and short (Alu, MIR) interspersed elements, as well as LTR retrotransposons (ERV). Furthermore, a high total TE content (>40%) was associated with an increased frequency of gross deletions. Both findings were further investigated and confirmed in a total set of 20 genes disrupted in human disease. Thus, to our knowledge for the first time, we provide evidence that a high TE content, irrespective of the type of element, results in the increased incidence of gross deletions as gene disruption underlying human disease.

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