Kuo Sheng Hsu scite author profile

Promyelocytic leukemia protein (PML) was originally identified as a fusion partner of retinoic acid receptor alpha in acute promyelocytic leukemia patients with the (15;17) chromosomal translocation, giving rise to PML–RARα and RARα–PML fusion proteins. A body of evidence indicated that PML possesses tumor suppressing activity by regulating apoptosis, cell cycle, senescence and DNA damage responses. PML is enriched in discrete nuclear substructures in mammalian cells with 0.2–1 μm diameter in size, referred to as alternately Kremer bodies, nuclear domain 10, PML oncogenic domains or PML nuclear bodies (NBs). Dysregulation of PML NB formation results in altered transcriptional regulation, protein modification, apoptosis and cellular senescence. In addition to PML NBs, PML is also present in nucleoplasm and cytoplasmic compartments, including the endoplasmic reticulum and mitochondria-associated membranes. The role of PML in tumor suppression has been extensively studied but increasing evidence indicates that PML also plays versatile roles in stem cell renewal, metabolism, inflammatory responses, neural function, mammary development and angiogenesis. In this review, we will briefly describe the known PML regulation and function and include new findings.

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α-Actinin 4 Potentiates Nuclear Factor κ-Light-chain-enhancer of Activated B-cell (NF-κB) Activity in Podocytes Independent of Its Cytoplasmic Actin Binding Function

Zhao¹,

Hsu²,

Lim³

et al. 2015

Journal of Biological Chemistry

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Background: ACTN4 is an actin-binding protein and is associated with kidney diseases. Results: Nuclear ACTN4 interacts with NF-B and is recruited to NF-B-targeted promoters to potentiate its transcription activity. Conclusion: ACTN4 coactivates NF-B activity independently of its cytoplasmic activity in cultured human podocytes. Significance: Nuclear ACTN4 may play an important role in glomerular function.

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Alpha-Actinin 4 and Tumorigenesis of Breast Cancer

Hsu

Kao

2013

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Alpha-actinins (ACTNs) were originally identified as cytoskeletal proteins which cross-link filamentous actin to establish cytoskeletal architect that protects cells from mechanical stress and controls cell movement. Notably, unlike other ACTNs, alpha-actinin 4 (ACTN4) displays unique characteristics in signaling transduction, nuclear translocation, and gene expression regulation. Initial reports indicated that ACTN4 is part of the breast cancer cell motile apparatus and is highly expressed in the nucleus. These results imply that ACTN4 plays a role in breast cancer tumorigenesis. While several observations in breast cancer and other cancers support this hypothesis, little direct evidence links the tumorigenic phenotype with ACTN4-mediated pathological mechanisms. Recently, several studies have demonstrated that in addition to its role in coordinating cytoskeleton, ACTN4 interacts with signaling mediators, chromatin remodeling factors, and transcription factors including nuclear receptors. Thus, ACTN4 functions as a versatile promoter for breast cancer tumorigenesis and appears to be an ideal drug target for future therapeutic development.

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Kuo Sheng Hsu

PML: Regulation and multifaceted function beyond tumor suppression

α-Actinin 4 Potentiates Nuclear Factor κ-Light-chain-enhancer of Activated B-cell (NF-κB) Activity in Podocytes Independent of Its Cytoplasmic Actin Binding Function

Alpha-Actinin 4 and Tumorigenesis of Breast Cancer

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