Several proteins of Clostridium thermocellum possess a C-terminal triplicated sequence related to bacterial cell surface proteins. This sequence was named the SLH domain (for S-layer homology), and it was proposed that it might serve to anchor proteins to the cell surface (A. Lupas, H. Engelhardt, J. Peters, U. Santarius, S. Volker, and W. Baumeister, J. Bacteriol. 176:1224-1233, 1994). This hypothesis was investigated by using the SLH-containing protein ORF1p from C. thermocellum as a model. Subcellular fractionation, immunoblotting, and electron microscopy of immunocytochemically labeled cells indicated that ORF1p was located on the surface of C. thermocellum. To detect C. thermocellum components interacting with the SLH domains of ORF1p, a probe was constructed by grafting these domains on the C terminus of the MalE protein of Escherichia coli. The SLH domains conferred on the chimeric protein (MalE-ORF1p-C) the ability to bind noncovalently to the peptidoglycan of C. thermocellum. In addition,
125I-labeled MalE-ORF1p-C was shown to bind to SLH-bearing proteins transferred onto nitrocellulose, and to a 26-to 28-kDa component of the cell envelope. These results agree with the hypothesis that SLH domains contribute to the binding of exocellular proteins to the cell surface of bacteria. The gene carrying ORF1 and its product, ORF1p, are renamed olpB and OlpB (for outer layer protein B), respectively.
Nagase and Inoue et al. generated a novel Asxl1 mutant mouse model to mimic clonal hematopoiesis and myelodysplastic syndromes caused by ASXL1 mutations and elucidated the effects of mutant versus wild-type ASXL1 on hematopoiesis, gene expression, and chromatin state.
The nucleotide sequence was determined for a 9.4-kb region of Clostridium thermocellum DNA extending from the 3' end of the gene (now termed cipA), encoding the S1/SL component of the cellulosome. Three open reading frames (ORFs) belonging to two operons were detected. They encoded polypeptides of 1,664, 688, and 447 residues, termed ORF1p, ORF2p, and ORF3p, respectively. The COOH-terminal regions of the three polypeptides were highly similar and contained three reiterated segments of 60 to 70 residues each. Similar segments have been found at the NH2 terminus of the S-layer proteins of Bacillus brevis and Acetogenium kivui, suggesting that ORF1p, ORF2p, and ORF3p might also be located on the cell surface. Otherwise, the sequence of ORF1p and ORF2p gave little clue concerning their potential function. However, the NH2-terminal region of ORF3p was similar to the reiterated domains previously identified in CipA as receptors involved in binding the duplicated segment of 22 amino acids present in catalytic subunits of the cellulosome. Indeed, it was found previously that ORF3p binds 125I-labeled endoglucanase CelD containing the duplicated segment (T. Fujino, P. Béguin, and J.-P. Aubert, FEMS Microbiol. Lett. 94:165-170, 1992). These findings suggest that ORF3p might serve as an anchoring factor for the cellulosome on the cell surface by binding the duplicated segment that is present at the COOH end of CipA.
ASXL1 mutations occur frequently in myeloid neoplasms and are associated with poor prognosis. However, the mechanisms by which mutant ASXL1 induces leukaemogenesis remain unclear. In this study, we report mutually reinforcing effects between a C-terminally truncated form of mutant ASXL1 (ASXL1-MT) and BAP1 in promoting myeloid leukaemogenesis. BAP1 expression results in increased monoubiquitination of ASXL1-MT, which in turn increases the catalytic function of BAP1. This hyperactive ASXL1-MT/BAP1 complex promotes aberrant myeloid differentiation of haematopoietic progenitor cells and accelerates RUNX1-ETO-driven leukaemogenesis. Mechanistically, this complex induces upregulation of posterior HOXA genes and IRF8 through removal of H2AK119 ubiquitination. Importantly, BAP1 depletion inhibits posterior HOXA gene expression and leukaemogenicity of ASXL1-MT-expressing myeloid leukemia cells. Furthermore, BAP1 is also required for the growth of MLL-fusion leukemia cells with posterior HOXA gene dysregulation. These data indicate that BAP1, which has long been considered a tumor suppressor, in fact plays tumor-promoting roles in myeloid neoplasms.
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