Yi Zhang scite author profile

SYNOPSIS GRP78 is traditionally regarded as a major endoplasmic reticulum (ER) chaperone facilitating protein folding and assembly, protein quality control, Ca2+ binding and regulating ER stress signaling. It is a potent anti-apoptotic protein and plays a critical role in tumor cell survival, tumor progression and angiogenesis, metastasis and resistance to therapy. Recent evidence shows that GRP78 can also exist outside the ER. The finding that GRP78 is present on the surface of cancer but not normal cells in vivo represents a paradigm shift on how GRP78 controls cell homeostasis and provides an opportunity for cancer specific targeting. Cell surface GRP78 has emerged as an important regulator of tumor cell signaling and viability as it forms complexes with a rapidly expanding repertoire of cell surface protein partners, regulating proliferation, PI3K/AKT signaling and cell viability. Evidence is also emerging that GRP78 serves as a receptor for viral entry into host cells. Additionally, a novel cytosolic form of GRP78 is discovered prominently in leukemia cells. These, coupled with report of nuclear and mitochondria localized form in GRP78, point to the previously unanticipated role of GRP78 beyond the ER that may be critical for cell viability and therapeutic targeting.

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TDP-43 pathology disrupts nuclear pore complexes and nucleocytoplasmic transport in ALS/FTD

Chou

et al. 2018

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The cytoplasmic mislocalization and aggregation of TAR DNA-binding protein-43 (TDP-43) is a common histopathological hallmark of the amyotrophic lateral sclerosis and frontotemporal dementia disease spectrum (ALS/FTD). However, the composition of aggregates and their contribution to the disease process remain unknown. Here, we used proximity-dependent biotin identification (BioID) to interrogate the interactome of detergent-insoluble TDP-43 aggregates, and found them enriched for components of the nuclear pore complex (NPC) and nucleocytoplasmic transport machinery. Aggregated and disease-linked mutant TDP-43 triggered the sequestration and/or mislocalization of nucleoporins (Nups) and transport factors (TFs), and interfered with nuclear protein import and RNA export in mouse primary cortical neurons, human fibroblasts, and iPSC-derived neurons. Nuclear pore pathology is present in brain tissue from sporadic ALS cases (sALS) and those with genetic mutations in TARDBP (TDP-ALS) and C9orf72 (C9-ALS). Our data strongly implicate TDP-43-mediated nucleocytoplasmic transport defects as a common disease mechanism in ALS/FTD.

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A protocol for isolation and culture of mesenchymal stem cells from mouse compact bone

Zhu¹,

Guo²,

Jiang³

et al. 2010

Nat Protoc

460

416

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Unlike humans, mouse bone marrow-derived mesenchymal stem cells (MSCs) cannot be easily harvested by adherence to plastic owing to the contamination of cultures by hematopoietic cells. The design of the protocol described here is based on the phenomenon that compact bones abound in MSCs and hematopoietic cells exist in the marrow cavities and the inner interfaces of the bones. The procedure includes flushing bone marrow out of the long bones, digesting the bone chips with collagenase type II, deprivation of the released cells and culturing the digested bone fragments, out of which fibroblast-like cells migrate and grow in the defined medium. The entire technique requires 5 d before the adherent cells are readily passaged. Further identification assays confirm that these cells are MSCs. We provide an easy and reproducible method to harvest mouse MSCs that does not require depletion of hematopoietic cells by sorting or immunomagnetic techniques.

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Osteoblasts support B-lymphocyte commitment and differentiation from hematopoietic stem cells

et al. 2007

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Yi Zhang

Beyond the endoplasmic reticulum: atypical GRP78 in cell viability, signalling and therapeutic targeting

TDP-43 pathology disrupts nuclear pore complexes and nucleocytoplasmic transport in ALS/FTD

A protocol for isolation and culture of mesenchymal stem cells from mouse compact bone

Osteoblasts support B-lymphocyte commitment and differentiation from hematopoietic stem cells

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