Generation of <i>Fam83h</i> knockout mice by CRISPR/Cas9‐mediated gene engineering

Nasseri, Sherko; Nikkho, Bahram; Parsa, Sara; Ebadifar, Asghar; Soleimani, Farzad; Rahimi, Karim; Vahabzadeh, Zakaria; Khadem-Erfan, Mohammad Bagher; Rostamzadeh, Jalal; Baban, Babak; Banafshi, Omid; Assadollahi, Vahideh; Mirzaie, Sako; Fathi, Fardin

doi:10.1002/jcb.28381

Cited by 10 publications

(10 citation statements)

References 40 publications

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“…In particular, knock-out of FAM83H retarded overall growth of mice and induced malformation of digits, AGING and abnormal teeth development was not part of the phenotype of all the knock-out mice [3]. These aberrant phenotypes in FAM83H knock-out mice suggest that FAM83H can have a pleiotropic role in cell proliferation and the molecules interacting with FAM83H might be involved in various roles of FAM83H [3]. In this aspect, the oncogene MYC is presented as a transcriptional regulator of FAM83H in hepatocellular carcinomas [4].…”

Section: Introductionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 97%

“…However, the effects of knocking out FAM83H in mice are not restricted to teeth development [3]. In particular, knock-out of FAM83H retarded overall growth of mice and induced malformation of digits, AGING and abnormal teeth development was not part of the phenotype of all the knock-out mice [3]. These aberrant phenotypes in FAM83H knock-out mice suggest that FAM83H can have a pleiotropic role in cell proliferation and the molecules interacting with FAM83H might be involved in various roles of FAM83H [3].…”

Section: Introductionmentioning

confidence: 99%

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FAM83H and SCRIB stabilize β-catenin and stimulate progression of gastric carcinoma

Hussein

Ahmed

et al. 2020

Aging

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FAM83H primarily is known for its function in tooth development. Recently, a role for FAM83H in tumorigenesis, conjunction with MYC and β-catenin, has been suggested. Analysis of public data indicates that FAM83H expression is closely associated with SCRIB expression in human gastric cancers. Therefore, this study investigated the roles of FAM83H and SCRIB in 200 human gastric cancers and gastric cancer cells. In human gastric carcinomas, both the individual and combined expression patterns of the nuclear FAM83H and SCRIB were independent indicators of shorter survival of gastric carcinoma patients. In MKN-45 and NCI-N87 gastric cancer cells, the expression of FAM83H and SCRIB were associated with proliferation and invasiveness of cells. FAM83H-mediated in vivo tumor growth was attenuated with knock-down of SCRIB. Moreover, immunoprecipitation indicates that FAM83H, SCRIB, and β-catenin, form a complex, and knock-down of either FAM83H or SCRIB accelerated proteasomal degradation of β-catenin. In conclusion, this study has found that the individual and combined expression patterns of nuclear FAM83H and SCRIB are prognostic indicators of gastric carcinomas and further suggests that FAM83H and SCRIB are involved in the progression of gastric carcinomas by stabilizing β-catenin.

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Section: Introductionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

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FAM83H and SCRIB stabilize β-catenin and stimulate progression of gastric carcinoma

Hussein

Ahmed

et al. 2020

Aging

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“…As the truncated FAM83H protein causes ADHCAI and the mutational study of FAM83H revealed the importance of the C-terminal portion for tooth enamel calci cation [22], we propose that the C-terminus of FAM83H is the core function region. FAM83H null mice and transgenic mice overexpression FAM83H did not show phenotype in enamel and dentin development, suggesting that the mechanism of FAM83H mutant ADHCAI was gain-of -function or dominant negative effect [23][24][25]. Recently, Wang et al generated a mouse model expressing a truncated FAM83H protein that recapitulated the ADHCAI-causing human FAM83H p.Tyr297* mutation, which displayed obvious enamel malformations.…”

Section: Discussionmentioning

confidence: 99%

FAM83H mutation analysis and its expression in rat tooth germs and human dental cells

et al. 2022

Preprint

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Background: Amelogenesis Imperfecta (AI) is a hereditary condition that affect the structure and appearance of dental enamel. It is of three main types, namely hypoplastic, hypomatured, and hypocalcified. Hypocalcified AI, the most severe of all, is generally caused by the mutation of FAM83H (family with sequence similarity 83 member H) gene. Here we aimed to identify the genetic mutations underlying hypocalcified AI in a Chinese family, and to detect the expression of FAM83H in rat tooth germs and human adult dental cells. Methods: A family with hypoplastic AI was recruited and mutational analysis on the candidate gene was performed by Sanger sequencing. Rat tooth germs and human dental cells were distracted and the expression of FAM83H was detected by RNA-seq.Results: Mutational analysis revealed one previously reported mutation (c. 1387C > T) in exon 5 of FAM83H. Clinical study revealed a slightly different phenotype from that previously reported. RNA-sequencing was demonstrated the expression of FAM83H in rat tooth germs and human adult dental cells. Conclusion: The present study identified a reported mutation of FAM83H with a slightly different phenotype, and revealed the FAM83H expression of various development stages of rat tooth germs and human adult dental cells.

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“…FAM83H is not expected to be secreted into the enamel matrix as it lacks a secretory signal peptide and is therefore expected to have intracellular roles in ameloblasts. However, whether FAM83H mainly functions during the pre-secretory, secretory or maturation stage of amelogenesis remains unclear [ 23 , 33 ].…”

Section: Introductionmentioning

confidence: 99%

Characterisation of the biochemical and cellular roles of native and pathogenic amelogenesis imperfecta mutants of FAM83H

Tachie-Menson

Gázquez-Gutiérrez

Fulcher

et al. 2020

Cellular Signalling

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The majority of mutations identified in patients with amelogenesis imperfecta have been mapped to FAM83H . As FAM83H expression is not limited to the enamel, how FAM83H contributes to amelogenesis is still largely unknown. We previously reported that members of the FAM83 family of proteins interact with and regulate the subcellular distribution of the promiscuous serine-threonine protein kinase CK1 family, through their shared N-terminal DUF1669 domains. FAM83H co-localises with CK1 isoforms to speckle-like structures in both the cytoplasm and nucleus. In this report, we show FAM83H, unlike other FAM83 proteins, interacts and colocalises with NCK1/2 tyrosine kinase adaptor proteins. This interaction is mediated by proline-rich motifs within the C-terminus of FAM83H, specifically interacting with the second and third SH3 domains of NCK1/2. Moreover, FAM83H pathogenic AI mutant proteins, which trigger C-terminal truncations of FAM83H, retain their interactions with CK1 isoforms but lose interaction with NCK1/2. These AI mutant FAM83H proteins acquire a nuclear localisation, and recruit CK1 isoforms to the nucleus where CK1 retains its kinase activity. As understanding the constituents of the FAM83H-localised speckles may hold the key to unravelling potential substrates of FAM83H-associated CK1 substrates, we employed a TurboID-based proximity labelling approach and uncovered several proteins including Iporin and BAG3 as potential constituents of the speckles.

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Generation of Fam83h knockout mice by CRISPR/Cas9‐mediated gene engineering

Cited by 10 publications

References 40 publications

FAM83H and SCRIB stabilize β-catenin and stimulate progression of gastric carcinoma

FAM83H and SCRIB stabilize β-catenin and stimulate progression of gastric carcinoma

FAM83H mutation analysis and its expression in rat tooth germs and human dental cells

Characterisation of the biochemical and cellular roles of native and pathogenic amelogenesis imperfecta mutants of FAM83H

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