Galande, Sanjeev ; Dickinson, Liliane A. ; Saira Mian, I. ; Sikorska, Marianna ; Kohwi-Shigematsu, Terumi (2001) SATB1 cleavage by caspase 6 disrupts PDZ domain-mediated dimerization, causing detachment from chromatin early in T-cell apoptosis Molecular and Cellular Biology, 21 (16). pp. 5591-5604. ISSN 0270-7306
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Official URL: http://mcb.asm.org/cgi/content/abstract/21/16/5591
Related URL: http://dx.doi.org/10.1128/MCB.21.16.5591-5604.2001
Abstract
SATB1 is expressed primarily in thymocytes and orchestrates temporal and spatial expression of a large number of genes in the T-cell lineage. SATB1 binds to the bases of chromatin loop domains in vivo, recognizing a special DNA context with strong base-unpairing propensity. The majority of thymocytes are eliminated by apoptosis due to selection processes in the thymus. We investigated the fate of SATB1 during thymocyte and T-cell apoptosis. Here we show that SATB1 is specifically cleaved by a caspase 6-like protease at amino acid position 254 to produce a 65-kDa major fragment containing both a base-unpairing region (BUR)-binding domain and a homeodomain. We found that this cleavage separates the DNA-binding domains from amino acids 90 to 204, a region which we show to be a dimerization domain. The resulting SATB1 monomer loses its BUR-binding activity, despite containing both its DNA-binding domains, and rapidly dissociates from chromatin in vivo. We found this dimerization region to have sequence similarity to PDZ domains, which have been previously shown to be involved in signaling by conferring protein-protein interactions. SATB1 cleavage during Jurkat T-cell apoptosis induced by an anti-Fas antibody occurs concomitantly with the high-molecular-weight fragmentation of chromatin of ~50-kb fragments. Our results suggest that mechanisms of nuclear degradation early in apoptotic T cells involve efficient removal of SATB1 by disrupting its dimerization and cleavage of genomic DNA into loop domains to ensure rapid and efficient disassembly of higher-order chromatin structure.
Item Type: | Article |
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Source: | Copyright of this article belongs to American Society for Microbiology. |
ID Code: | 67813 |
Deposited On: | 02 Nov 2011 08:14 |
Last Modified: | 02 Nov 2011 10:13 |
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