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RISS 인기검색어
- 검색키워드
- 저자 : Sarah L. Fox (검색결과 2 건)
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Comparison of digital and traditional skin wound closure assessment methods in mice
Coco X. Huang,Elisha Siwan,Sarah L. Fox,Matilda Longfield,Stephen M. Twigg,Danqing Min 한국실험동물학회 2023 Laboratory Animal Research Vol.39 No.4
Background: Chronic skin wounds are a common complication of many diseases such as diabetes. Various traditional methods for assessing skin wound closure are used in animal studies, including wound tracing, calliper measurements and histological analysis. However, these methods have poorly defined wound closure or practical limitations. Digital image analysis of wounds is an increasingly popular, accessible alternative, but it is unclear whether digital assessment is consistent with traditional methods. This study aimed to optimise and compare digital wound closure assessment with traditional methods, using a diabetic mouse model. Diabetes was induced in male C57BL/6J mice by high-fat diet feeding combined with low dose (65 mg/kg of body weight) streptozotocin injections. Mice fed normal chow were included as controls. After 18 weeks, four circular full-thickness dorsal skin wounds of 4 mm diameter were created per mouse. The wounds were photographed and measured by callipers. Wound closure rate (WCR) was digitally assessed by two reporters using two methods: wound outline (WCR-O) and re-epithelialisation (WCR-E). Wounded skin tissues were collected at 10-days post-wounding and wound width was measured from haematoxylin and eosin-stained skin tissue. Results: Between reporters, WCR-O was more consistent than WCR-E, and WCR-O correlated with calliper measurements. Histological analysis supported digital assessments, especially WCR-E, when wounds were histologically closed. Conclusions: WCR-O could replace calliper measurements to measure skin wound closure, but WCR-E assessment requires further refinement. Small animal studies of skin wound healing can greatly benefit from standardised definitions of wound closure and more consistent digital assessment protocols.
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Predisposition to Cancer Caused by Genetic and Functional Defects of Mammalian <i>Atad5</i>
Bell, Daphne W.,Sikdar, Nilabja,Lee, Kyoo-young,Price, Jessica C.,Chatterjee, Raghunath,Park, Hee-Dong,Fox, Jennifer,Ishiai, Masamichi,Rudd, Meghan L.,Pollock, Lana M.,Fogoros, Sarah K.,Mohamed, Hassa Public Library of Science 2011 PLoS genetics Vol.7 No.8
<▼1><P>ATAD5, the human ortholog of yeast Elg1, plays a role in PCNA deubiquitination. Since PCNA modification is important to regulate DNA damage bypass, ATAD5 may be important for suppression of genomic instability in mammals <I>in vivo</I>. To test this hypothesis, we generated heterozygous (<I>Atad5<SUP>+/m</SUP></I>) mice that were haploinsuffficient for Atad5. <I>Atad5<SUP>+/m</SUP></I> mice displayed high levels of genomic instability <I>in vivo</I>, and <I>Atad5<SUP>+/m</SUP></I> mouse embryonic fibroblasts (MEFs) exhibited molecular defects in PCNA deubiquitination in response to DNA damage, as well as DNA damage hypersensitivity and high levels of genomic instability, apoptosis, and aneuploidy. Importantly, 90% of haploinsufficient <I>Atad5<SUP>+/m</SUP></I> mice developed tumors, including sarcomas, carcinomas, and adenocarcinomas, between 11 and 20 months of age. High levels of genomic alterations were evident in tumors that arose in the <I>Atad5<SUP>+/m</SUP></I> mice. Consistent with a role for <I>Atad5</I> in suppressing tumorigenesis, we also identified somatic mutations of <I>ATAD5</I> in 4.6% of sporadic human endometrial tumors, including two nonsense mutations that resulted in loss of proper ATAD5 function. Taken together, our findings indicate that loss-of-function mutations in mammalian <I>Atad5</I> are sufficient to cause genomic instability and tumorigenesis.</P></▼1><▼2><P><B>Author Summary</B></P><P>Genomic instability is a hallmark of tumorigenesis, suggesting that mutations in genes suppressing genomic instability contribute to this phenotype. In this study, we demonstrate for the first time that haploinsufficiency for Atad5, a protein that is important in stabilizing stalled DNA replication forks by regulating PCNA ubiquitination during DNA damage bypass, predisposes >90% of mice to tumorigenesis in multiple organs. In heterozygous <I>Atad5</I> mice, both somatic cells and the spontaneous tumors showed high levels of genomic instability. In a subset of sporadic human endometrial tumors, we identified heterozygous loss-of-function somatic mutations in the <I>ATAD5</I> gene, consistent with the role of mouse <I>Atad5</I> in suppressing tumorigenesis. Collectively, our findings suggest that <I>ATAD5</I> may be a novel tumor suppressor gene.</P></▼2>
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