Your search keyword '"Christopher C. Goodnow"' showing total 2 results

1. A mutation in a chromosome condensin II subunit, kleisin β, specifically disrupts I cell development.

Author

Gosling, Katharine M., Makaroff, Lydia E., Theodoratos, Angelo, Yong-Hee Kim, Whittie, Belinda, Lixin Rui, Hua Wu, Hong, Nancy A., Gavin C. Kennedy, Julie-Anne Fritz, Adele L. Yates, Christopher C. Goodnow, and Fahrer, Aude M.

Subjects

GENETIC mutation, T cells, LYMPHOCYTES, CELL differentiation, CELL nuclei, EXONS (Genetics)

Abstract

Condensins are ubiquitously expressed multiprotein complexes that are important for chromosome condensation and epigenetic regulation of gene transcription, but whose specific roles in vertebrates are poorly understood. We describe a mouse strain, nessy, isolated during an ethylnitrosourea screen for recessive immunological mutations. The nessy mouse has a defect in T lymphocyte development that decreases circulating T cell numbers, increases their expression of the activation/memory marker CD44. and dramatically decreases the numbers of CD4+ CD8+ thymocytes and their immediate DN4 precursors. A missense mutation in an unusual alternatively spliced first exon of the kleisin p gene, a member of the condensin II complex, was shown to be responsible and act in a T cell-autonomous manner. Despite the ubiquitous expression and role of condensins. kleisin pnes/nes mice were viable, fertile, and showed no defects even in the parallel pathway of B cell lymphocyte differentiation. These data define a unique lineage-specific requirement for kleisin β in mammalian T cell differentiation. [ABSTRACT FROM AUTHOR]

Published

2007

2. Spontaneous B cell hyperactivity in autoimmune-prone MRL mice.

Author

Anastasia Nijnik, Helen Ferry, Graham Lewis, Eleni Rapsomaniki, Janson C. H. Leung, Angelika Daser, Teresa Lambe, Christopher C. Goodnow, and Richard J. Cornall

Abstract

The MRL-lpr/lpr mouse strain is a commonly used model of the human autoimmune disease systemic lupus erythematosus (SLE). Although much is known about the contribution of the lpr Fas mutation to B cell tolerance breakdown, the role of the genetic background of the MRL strain itself is less well explored. In this study, we use the MD4 anti-hen egg lysozyme Ig (IgHEL) transgenic system to explore B cell function in MRL+/+ and non-autoimmune mice. We demonstrate that MRL IgHEL B cells show spontaneous hyperactivity in the absence of self-antigen, which is associated with low total B cell numbers but an expansion of the marginal zone B cell population. However, B cell anergy is normal in the presence of soluble lysozyme [soluble hen egg lysozyme (sHEL)], and MRL IgHEL B cells undergo normal elimination in the presence of sHEL when competing with a polyclonal C57BL/6 B cell repertoire. We conclude that B cell hyperactivity may contribute to the autoimmune phenotype of MRL+/+ and MRL-lpr/lpr strains when it initiates antibody responses to rare or sequestered antigens that are below the threshold for tolerance induction, but that there is no B cell intrinsic defect in anergy in MRL mice. [ABSTRACT FROM AUTHOR]

Published

2006