Chau Ly scite author profile

Chau Ly

4Publications

136Citation Statements Received

236Citation Statements Given

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Affiliations

University of California, Los Angeles, Institute of Pharmacology, Institute of Biomedical Sciences, Academia Sinica

Publications

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TRC8 suppresses tumorigenesis through targeting heme oxygenase-1 for ubiquitination and degradation

2012

Oncogene

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The TRC8 gene, which was previously shown to be disrupted by a 3;8 chromosomal translocation in hereditary kidney cancer, encodes for an endoplasmic reticulum-resident E3 ligase. Studies have shown that TRC8 exhibits a tumor-suppressive effect through its E3-ligase activity. Therefore, the identification of its physiological substrates will provide important insights into the molecular mechanism underlying TRC8-mediated tumor suppression. Here we show that TRC8 targets heme oxygenase-1 (HO-1), an antioxidant enzyme highly expressed in various cancers, for ubiquitination and degradation. Ectopic TRC8 expression suppresses HO-1-induced cancer cell growth and migration/invasion. Conversely, HO-1 depletion reduced the tumorigenic and invasive capacities promoted by TRC8 knockdown. HO-1 downregulation in renal carcinoma cells induces a mitotic delay at G2/M phase by increasing the intracellular reactive oxygen species and the DNA-damage-induced checkpoint activation. These results highlight the tumorigenic role of HO-1 and the importance of TRC8-mediated HO-1 degradation in the control of cancer growth.

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Unraveling the mechanobiology of immune cells

Zhang

Kim

Thauland

et al. 2020

Current Opinion in Biotechnology

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Immune cells can sense and respond to biophysical cues — from dynamic forces to spatial features — during their development, activation, differentiation and expansion. These biophysical signals regulate a variety of immune cell functions such as leukocyte extravasation, macrophage polarization, T cell selection and T cell activation. Recent studies have advanced our understanding on immune responses to biophysical cues and the underlying mechanisms of mechanotransduction, which provides rational basis for the design and development of immune-modulatory therapeutics. This review discusses the recent progress in mechanosensing and mechanotransduction of immune cells, particularly monocytes/macrophages and T lymphocytes, and features new biomaterial designs and biomedical devices that translate these findings into biomedical applications.

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Transient nuclear deformation primes epigenetic state and promotes cell reprogramming

et al. 2022

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Cell reprogramming has wide applications in tissue regeneration, disease modeling and personalized medicine, but low reprogramming efficiency remains a challenge. In addition to biochemical cues, biophysical factors can modulate the epigenetic state and a variety of cell functions. However, how biophysical factors help overcome the epigenetic barrier for cell reprogramming are not well understood. Here we utilized microfluidic channels to induce a transient deformation of the cell nucleus, which caused the disassembly of the nuclear lamina and a downregulation of DNA methylation and histone (H3K9) for 12-24 hours. These global decreases of heterochromatin marks at the early stage of cell reprogramming strikingly enhanced the conversion of fibroblasts into neurons and induced pluripotent stem cells. Consistently, inhibition of DNA methylation and H3K9 methylation partially mimicked the effects of mechanical squeezing on iN reprogramming efficiency. Knocking down lamin A had similar effects to squeezing on enhancing the reprogramming efficiency. Based on these findings, we developed a scalable microfluidic system that enabled a continuous cell processing to effectively prime the epigenetic state for cell reprogramming, demonstrating the potential of mechano-biotechnology for cell

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Stress hormone signaling through β‐adrenergic receptors regulates macrophage mechanotype and function

Kim

Christodoulides

et al. 2018

FASEB j.

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Critical functions of immune cells require them to rapidly change their shape and generate forces in response to cues from their surrounding environment. However, little is known about how soluble factors that may be present in the microenvironment modulate key aspects of cellular mechanobiology—such as immune cell deformability and force generation—to impact functions such as phagocytosis and migration. Here we show that signaling by soluble stress hormones through β‐adrenoceptors (β‐AR) reduces the deformability of macrophages; this is dependent on changes in the organization of the actin cytoskeleton and is associated with functional changes in phagocytosis and migration. Pharmacologic interventions reveal that the impact of β‐AR signaling on macrophage deformability is dependent on actin‐related proteins 2/3, indicating that stress hormone signaling through β‐AR shifts actin organization to favor branched structures rather than linear unbranched actin filaments. These findings show that through remodeling of the actin cytoskeleton, β‐AR‐mediated stress hormone signaling modulates macrophage mechanotype to impact functions that play a critical role in immune response.—Kim, T.‐H., Ly, C., Christodoulides, A., Nowell, C. J., Gunning, P. W., Sloan, E. K., Rowat, A. C. Stress hormone signaling through β‐adrenergic receptors regulates macrophage mechanotype and function. FASEB J. 33, 3997–4006 (2019). http://www.fasebj.org

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Chau Ly

TRC8 suppresses tumorigenesis through targeting heme oxygenase-1 for ubiquitination and degradation

Unraveling the mechanobiology of immune cells

Transient nuclear deformation primes epigenetic state and promotes cell reprogramming

Stress hormone signaling through β‐adrenergic receptors regulates macrophage mechanotype and function

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