Tzu-Hua Ho scite author profile

Tzu-Hua Ho

2Publications

20Citation Statements Received

161Citation Statements Given

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Seattle Children's Hospital, University of Washington

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Loss of function of Colgalt1 disrupts collagen post-translational modification and causes musculoskeletal defects

Geister

López-Jiménez

Houghtaling

et al. 2019

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In a screen for organogenesis defects in N-ethyl-N-nitrosourea (ENU)-induced mutant mice, we discovered a line carrying a mutation in Colgalt1 [collagen beta(1-O)galactosyltransferase type 1], which is required for proper galactosylation of hydroxylysine residues in a number of collagens. Colgalt1 mutant embryos have not been previously characterized; here, we show that they exhibit skeletal and muscular defects. Analysis of mutant-derived embryonic fibroblasts reveals that COLGALT1 acts on collagen IV and VI, and, while collagen VI appears stable and its secretion is not affected, collagen IV accumulates inside of cells and within the extracellular matrix, possibly due to instability and increased degradation. We also generated mutant zebrafish that do not express the duplicated orthologs of mammalian Colgalt1 . The double-homozygote mutants have muscle defects; they are viable through the larvae stage but do not survive to 10 days post-fertilization. We hypothesize that the Colgalt1 mutant could serve as a model of a human connective tissue disorder and/or congenital muscular dystrophy or myopathy.

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The arginine methyltransferaseCarm1is necessary for heart development

Jamet

et al. 2022

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To discover genes implicated in human congenital disorders, we performed ENU mutagenesis in the mouse and screened for mutations affecting embryonic development. In this work we report defects of heart development in mice homozygous for a mutation of Coactivator-associated Arginine Methyltransferase 1 (Carm1). While Carm1 has been extensively studied, it has never been previously associated with a role in heart development. Phenotype analysis combining histology and micro-computed tomography (micro-CT) imaging shows a range of cardiac defects. Most notably, many affected mid-gestation embryos appear to have cardiac rupture and hemorrhaging in the thorax. Mice that survive to late gestation show a variety of cardiac defects, including Ventricular Septal Defects (VSDs), Double Outlet Right Ventricle (DORV), and Persistent Truncus Arteriosus (PTA). Transcriptome analyses of the mutant embryos by mRNA-seq reveal the perturbation of several genes involved in cardiac morphogenesis and muscle development and function. In addition, we observe the mis-localization of cardiac neural crest cells at E12.5 in the outflow tract. The cardiac phenotype of Carm1 mutant embryos is similar to that of Pax3 null mutants, and PAX3 is a putative target of CARM1. However, our analysis does not support the hypothesis that developmental defects in Carm1 mutant embryos are primarily due to a functional defect of PAX3.

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Tzu-Hua Ho

Loss of function of Colgalt1 disrupts collagen post-translational modification and causes musculoskeletal defects

The arginine methyltransferaseCarm1is necessary for heart development

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