Your search keyword '"Singer-Berk M"' showing total 3 results

1. A novel DDB2 mutation causes defective recognition of UV-induced DNA damages and prevalent equine squamous cell carcinoma.

Author

Chen L, Bellone RR, Wang Y, Singer-Berk M, Sugasawa K, Ford JM, and Artandi SE

Subjects

Animals, Carcinoma, Squamous Cell metabolism, Carcinoma, Squamous Cell veterinary, DNA metabolism, DNA radiation effects, Eyelid Neoplasms metabolism, Eyelid Neoplasms veterinary, Horse Diseases genetics, Horse Diseases metabolism, Horses, Nucleic Acid Conformation, Protein Binding, Carcinoma, Squamous Cell genetics, DNA Repair, DNA-Binding Proteins metabolism, Eyelid Neoplasms genetics, Mutation, Missense, Ultraviolet Rays

Abstract

Squamous cell carcinoma (SCC) occurs frequently in the human Xeroderma Pigmentosum (XP) syndrome and is characterized by deficient UV-damage repair. SCC is the most common equine ocular cancer and the only associated genetic risk factor is a UV-damage repair protein. Specifically, a missense mutation in horse DDB2 (T338M) was strongly associated with both limbal SCC and third eyelid SCC in three breeds of horses (Halflinger, Belgian, and Rocky Mountain Horses) and was hypothesized to impair binding to UV-damaged DNA. Here, we investigate DDB2-T338M mutant's capacity to recognize UV lesions in vitro and in vivo, together with human XP mutants DDB2-R273H and -K244E. We show that the recombinant DDB2-T338M assembles with DDB1, but fails to show any detectable binding to DNA substrates with or without UV lesions, due to a potential structural disruption of the rigid DNA recognition β-loop. Consistently, we demonstrate that the cellular DDB2-T338M is defective in its recruitment to focally radiated DNA damages, and in its access to chromatin. Thus, we provide direct functional evidence indicating the DDB2-T338M recapitulates molecular defects of human XP mutants, and is the causal loss-of-function allele that gives rise to equine ocular SCCs. Our findings shed new light on the mechanism of DNA recognition by UV-DDB and on the initiation of ocular malignancy., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

2. A missense mutation in damage-specific DNA binding protein 2 is a genetic risk factor for ocular squamous cell carcinoma in Belgian horses.

Author

Knickelbein KE, Lassaline ME, Singer-Berk M, Reilly CM, Clode AB, Famula TR, Michau TM, and Bellone RR

Subjects

Animals, Horses, Carcinoma, Squamous Cell veterinary, DNA-Binding Proteins genetics, Eye Neoplasms veterinary, Genetic Predisposition to Disease, Horse Diseases genetics, Mutation, Missense

Abstract

Background: Belgian horses are commonly affected with ocular squamous cell carcinoma (SCC), the most common cancer of the equine eye. A missense mutation in damage-specific DNA binding protein 2 (DDB2 c.1013C>T, p.Thr338Met) has been established as a recessive genetic risk factor for ocular SCC in the Haflinger breed. A sample of Belgian horses with unknown SCC phenotype was shown to possess this variant at a similar frequency to the Haflinger breed. Retrospective studies indicate that chestnut coat colour may predispose to the development of SCC., Objectives: To determine if DDB2 c.1013C>T is a risk factor for ocular SCC in a strictly phenotyped sample of Belgian horses. To investigate associations between coat colour loci genotypes and ocular SCC., Study Design: Retrospective and prospective case identification, genetic investigation., Methods: Genomic DNA was isolated from blood, hair or formalin-fixed paraffin-embedded tissue from 25 Belgian horses with histologically confirmed ocular SCC and 18 unaffected Belgian horses. Association testing of 34 single nucleotide variants from 11 genomic loci and genotyping for DDB2 c.1013C>T and coat colour alleles were performed. Exons of DDB2 were sequenced in four cases and two controls. Associations were analysed by Chi-square or Fisher's exact tests and relative risk was calculated., Results: Homozygosity for DDB2 c.1013C>T was significantly associated with ocular SCC (P = 7.4 × 10 -7 ). Seventy-six per cent of affected horses were homozygous for the variant. Relative risk for homozygous horses developing SCC was 4.0 (P = 1.0 × 10 -4 ). Sequencing DDB2 did not identify a variant more concordant with disease phenotype. An association between disease and coat colour loci was not identified., Main Limitations: Phenotyping was determined at a single timepoint. Each included horse genotyped as chestnut, so association with this MC1R variant could not be investigated., Conclusions: A missense variant, DDB2 c.1013C>T, p.Thr338Met, is a risk factor for ocular SCC in Belgian horses. A genetic risk test is commercially available., (© 2019 EVJ Ltd.)

Published

2020

3. A missense mutation in damage-specific DNA binding protein 2 is a genetic risk factor for limbal squamous cell carcinoma in horses.

Author

Bellone RR, Liu J, Petersen JL, Mack M, Singer-Berk M, Drögemüller C, Malvick J, Wallner B, Brem G, Penedo MC, and Lassaline M

Subjects

Animals, Carcinoma, Squamous Cell genetics, Computational Biology, DNA Damage, DNA-Binding Proteins chemistry, Eye Neoplasms genetics, Female, Genetic Predisposition to Disease, Genome-Wide Association Study veterinary, Horses, Male, Pedigree, Protein Structure, Secondary, Sequence Analysis, DNA veterinary, Carcinoma, Squamous Cell veterinary, DNA-Binding Proteins genetics, Eye Neoplasms veterinary, Horse Diseases genetics, Limbus Corneae pathology, Mutation, Missense

Abstract

Squamous cell carcinoma (SCC) is the most common cancer of the equine eye, frequently originating at the limbus, with the potential to invade the cornea, cause visual impairment, and result in loss of the eye. Several breeds of horses have a high occurrence of limbal SCC implicating a genetic basis for limbal SCC predisposition. Pedigree analysis in the Haflinger breed supports a simple recessive mode of inheritance and a genome-wide association study (N = 23) identified a 1.5 Mb locus on ECA12 significantly associated with limbal SCC (P corrected = 0.04). Sequencing the most physiologically relevant gene from this locus, damage specific DNA binding protein 2 (DDB2), identified a missense mutation (c.1013 C > T p.Thr338Met) that was strongly associated with limbal SCC (P = 3.41 × 10 -10 ). Genotyping 42 polymorphisms narrowed the ECA12 candidate interval to 483 kb but did not identify another variant that was more strongly associated. DDB2 binds to ultraviolet light damaged DNA and recruits other proteins to perform global genome nucleotide excision repair. Computational modeling predicts this mutation to be deleterious by altering conformation of the β loop involved in photolesion recognition. This DDB2 variant was also detected in two other closely related breeds with reported cases of ocular SCC, the Belgian and the Percheron, suggesting it may also be a SCC risk factor in these breeds. Furthermore, in humans xeroderma pigmentosum complementation group E, a disease characterized by sun sensitivity and increased risk of cutaneous SCC and melanomas, is explained by mutations in DDB2. Cross-species comparison remains to be further evaluated., (© 2017 UICC.)

Published

2017