Matthew J Bugeja scite author profile

Mammalian SWItch/sucrose non fermentable (SWI/SNF) remodeling of chromatin modulates transcription and DNA repair. The Brahma (BRM) catalytic subunit of the SWI/SNF complex is one of two mutually exclusive subunits that provide energy for remodeling. BRM has been identified as an important cancer susceptibility locus; however, to date no mutations have been identified in the BRM gene. We performed genetic analysis of BRM in human non-melanoma skin cancers, precancerous lesions, and normal skin revealing a common nonsynonymous point mutation present in one of ten squamous cell and two of six basal cell carcinoma of the skin. This hotspot was not present in germ-line DNA from the same patients, nor in epithelial precancerous lesions. The observed G:C to T:A transversion is typical of mutations occurring following oxidative damage, such as that caused by UVA radiation. This previously unreported hotspot mutation occurs in a highly conserved region of the BRM gene.

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The absence of Brm exacerbates photocarcinogenesis

Halliday

Zhou

Sou

et al. 2012

Experimental Dermatology

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Brm is an ATPase subunit of the SWI/SNF chromatin-remodelling complex. Previously, we identified a novel hotspot mutation in Brm in human skin cancer, which is caused by exposure to ultraviolet radiation (UVR). As SWI/SNF is involved in DNA repair, we investigated whether Brm-/- mice had enhanced photocarcinogenesis. P53+/- and Brm-/-p53+/- mice were also examined as the p53 tumor suppressor gene is mutated early during human skin carcinogenesis. Mice were exposed to a low-dose irradiation protocol that caused few skin tumors in wild-type mice. Brm-/- mice with both p53 alleles intact had an increased incidence of skin and ocular tumors compared to Brm+/+p53+/+ controls. Brm loss in p53+/- mice did not further enhance skin or ocular cancer incidence beyond the increased photocarcinogenesis in p53+/- mice. However, the skin tumors that arose early in Brm-/- p53+/- mice had a higher growth rate. Brm-/- did not prevent UVR-induced apoptotic sunburn cell formation, which is a protective response. Unexpectedly, Brm-/- inhibited UVR-induced immunosuppression, which would be predicted to reduce rather than enhance photocarcinogenesis. In conclusion, the absence of Brm increased skin and ocular photocarcinogenesis. Even when one allele of p53 is lost, Brm has additional tumor suppressing capability.

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An investigation of NOS2A promoter polymorphisms in Australian multiple sclerosis patients

et al. 2005

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As with other major autoimmune diseases, susceptibility to multiple sclerosis (MS) is believed to result from the complex interaction of a number of genes, each with modest effect. Extensive research of experimental autoimmune encephalomyelitis in mice and several direct MS studies have implicated NOS2A, which encodes the inducible form of nitric oxide synthase, and the genetic region encoding NOS2A, 17q11.2, has been identified in a number of genome wide screens as being potentially associated with MS. We investigated four single nucleotide polymorphisms in the proximal promoter region of NOS2A, in a case -control group of 100 Australian MS patients and 100 controls and in 203 MS patients and their unaffected parents. We found a trend toward excess transmission of the À277A allele (tag for the AGCC haplotype) to HLA-DRB1*1501-positive MS patients (P (uncorrected) ¼ 0.05). We initially discovered a trend toward over-representation of the AGCC haplotype in HLA-DRB1*1501-positive compared to HLA-DRB1*1501-negative MS patients in the case-control cohort. However, when combined with the probands from the transmission disequilibrium analysis, this trend was nullified. Nonetheless, despite the lack of significant evidence of association for the NOS2A promoter polymorphisms with MS, the gene remains an interesting candidate for MS susceptibility, particularly with regard to the HLA-DRB1*1501 haplotype.

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An investigation of polymorphisms in the 17q11.2-12 CC chemokine gene cluster for association with multiple sclerosis in Australians

et al. 2006

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Background: Multiple sclerosis (MS) is a disorder of the central nervous system (CNS) characterised by inflammation and neuronal degeneration. It is believed to result from the complex interaction of a number of genes, each with modest effect. Chemokines are vital to the migration of cells to sites of inflammation, including the CNS, and many are implicated in MS pathogenesis. Most of the CC chemokine genes are encoded in a cluster on chromosome 17q11.2-12, which has been identified in a number of genome wide screens as being potentially associated with MS.

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Matthew J Bugeja

Hotspot Mutation of Brahma in Non-Melanoma Skin Cancer

The absence of Brm exacerbates photocarcinogenesis

An investigation of NOS2A promoter polymorphisms in Australian multiple sclerosis patients

An investigation of polymorphisms in the 17q11.2-12 CC chemokine gene cluster for association with multiple sclerosis in Australians

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