Luyuan Li scite author profile

The balance between apoptosis (“programmed cell death”) and autophagy (“programmed cell survival”) is important in tumor development and response to therapy. Here we show that HMGB1 and p53 form a complex which regulates the balance between tumor cell death and survival. We demonstrate that knockout of p53 inHCT116 cells increases expression of cytosolic HMGB1 and induces autophagy. Conversely, knockout of HMGB1 in mouse embryonic fibroblasts increases p53 cytosolic localization and decreases autophagy. p53 is thus a negative regulator of the HMGB1/Beclin 1 complex, and HMGB1 promotes autophagy in the setting of diminished p53. HMGB1-mediated autophagy promotes tumor cell survival in the setting of p53-dependent processes. The HMGB1/p53 complex affects the cytoplasmic localization of the reciprocal binding partner thereby regulating subsequent levels of autophagy and apoptosis. These insights provide a novel link between HMGB1 and p53 in the crossregulation of apoptosis and autophagy in the setting of cell stress, providing insights into their reciprocal roles in carcinogenesis.

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A novel secreted splice variant of vascular endothelial cell growth inhibitor

Chew

Pan

et al. 2002

FASEB j.

137

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Vascular endothelial cell growth inhibitor (VEGI), a member of the tumor necrosis factor (TNF) family, is an endothelial cell-specific inhibitor of angiogenesis. Overexpression by cancer cells of a secretable VEGI fusion protein resulted in abrogation of xenograft tumor progression, but overexpression of full-length VEGI was completely without effect. This finding indicates that secretion is essential for VEGI action. Here we report the identification of two new VEGI isoforms consisting of 251 and 192 amino acid residues. Both isoforms show endothelial cell-specific expression and share a C-terminal 151-residue segment with the previously described VEGI, which comprises 174 residues. The isoforms are generated from a 17 kb human gene by alternative splicing. Their expression is regulated in parallel by inflammatory cytokines TNF-alpha and interferon-gamma. VEGI-251, the most abundant isoform, contains a putative secretion signal. VEGI protein is detected in conditioned media of endothelial cells and VEGI-251-transfected mammalian cells. Overexpression of VEGI-251 in endothelial cells causes dose-dependent cell death. VEGI-251-transfected cancer cells form xenograft tumors of reduced growth rate and microvessel density compared with tumors of empty vector transfectants. These findings support the view that endothelial cell-secreted VEGI may function as an autocrine inhibitor of angiogenesis and a naturally existing modulator of vascular homeostasis.

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Cerebrospinal Fluid Leak After Nasal Swab Testing for Coronavirus Disease 2019

Sullivan

Schwalje

Foggia

et al. 2020

JAMA Otolaryngol Head Neck Surg

100

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destruction releases several immunogenic antigens that indirectly activate an immune response against the disease. 4This case report describes a remarkable response to ECT in a patient with advanced oropharyngeal cancer. 5 The main benefits are temporary improvement of quality of life and reduction in the need for medical assistance and use of analgesic drugs. 6 More research is needed to develop ECT and assess its efficacy in the palliative setting. The unexpected response observed in this patient suggests the need for further investigation into the role of ECT for different localizations and histotypes.

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Modulation of Endothelial Cell Growth Arrest and Apoptosis by Vascular Endothelial Growth Inhibitor

Shen

Metheny-Barlow

et al. 2001

Circulation Research

106

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Abstract-Vascular endothelial growth inhibitor (VEGI), a new member of the tumor necrosis factor family, is an endothelial cell-specific gene and a potent inhibitor of endothelial cell proliferation, angiogenesis, and tumor growth. We report here that VEGI mediates the following two activities in endothelial cells: early G 1 arrest in G 0 /G 1 cells responding to growth stimuli, and programmed death in proliferating cells. G 0 /G 1 -synchronized bovine aortic endothelial cells were treated with VEGI before and after the onset of the growth cycle. When the cells were stimulated with growth conditions but treated simultaneously with VEGI, a reversible, early-G 1 growth arrest occurred, evidenced by the lack of late G 1 markers such as hyperphosphorylation of the retinoblastoma gene product and upregulation of the c-myc gene. Additionally, VEGI treatment led to inhibition of the activities of cyclin-dependent kinases CDK2, CDK4, and CDK6. In contrast, VEGI treatment of cells that had entered the growth cycle resulted in apoptotic cell death, as evidenced by terminal deoxytransferase labeling of fragmented DNA, caspase 3 activation, and annexin V staining, all of which were lacking in nonproliferating cells treated with VEGI. Additionally, stress-signaling proteins p38 and JNK were not as fully activated by VEGI in quiescent as compared with proliferating populations. These findings suggest a dual role for VEGI, the maintenance of growth arrest and induction of apoptosis, in the modulation of the endothelial cell cycle.

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Luyuan Li

p53/HMGB1 Complexes Regulate Autophagy and Apoptosis

A novel secreted splice variant of vascular endothelial cell growth inhibitor

Cerebrospinal Fluid Leak After Nasal Swab Testing for Coronavirus Disease 2019

Modulation of Endothelial Cell Growth Arrest and Apoptosis by Vascular Endothelial Growth Inhibitor

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