Yongkai Weng scite author profile

Multiple, bilateral renal carcinomas are a frequent occurrence in von Hippel-Lindau (VHL) disease. To elucidate the aetiological role of the VHL gene in human kidney tumorigenesis, localized and advanced tumours from 110 patients with sporadic renal carcinoma were analysed for VHL mutations and loss of heterozygosity (LOH). VHL mutations were identified in 57% of clear cell renal carcinomas analysed and LOH was observed in 98% of those samples. Moreover, VHL was mutated and lost in a renal tumour from a patient with familial renal carcinoma carrying the constitutional translocation, t(3;8)(p14;q24). The identification of VHL mutations in a majority of localized and advanced sporadic renal carcinomas and in a second form of hereditary renal carcinoma indicates that the VHL gene plays a critical part in the origin of this malignancy.

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Silencing of the VHL tumor-suppressor gene by DNA methylation in renal carcinoma.

Herman

Latif

Weng

et al. 1994

Proc. Natl. Acad. Sci. U.S.A.

1,369

761

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Mutational Inactivation and allelic loss of the von HlppelLlndau (VHL) gene appear to be causal events for the majority of spontaneous clear-cell renal cardnomas. We now show that hypermethylatlon of a normally unmethylated CpG Island in the 5' region provides another potentially important mechanism for Inactivation of the VHL gene In a siificant portion of these cancers. This hypermethylation was found in S of 26 (19%) tumors examined. Four of these had lost one copy of VHL while one retained two heavily methylated alleles. Four of the tumors with VHL hypermethylation had no detectable mutations, whereas one had a missense mutation In addition to hypermethylation of the single retained allele. As would be predicted for the consequence of methylation in this 5' CpG island, none of the 5 tumors expressed the VHL gene.

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Capture of an early fusion-active conformation of HIV-1 gp41

Furuta

Wild²,

Weng

et al. 1998

Nat Struct Mol Biol

489

333

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Using an inhibitory synthetic peptide (DP-178) from HIV-1 gp41, we have trapped HIV-1 envelope glycoprotein (Env) undergoing conformational changes during virus entry. Our data show that DP-178 binds gp41 and inhibits Env-mediated membrane fusion after gp120 interacts with cellular receptors, indicating that conformational changes involving the coiled coil domain of gp41 are required for entry. Capture of this fusion-active conformation of Env provides insights into the early events leading to Env-mediated membrane fusion.

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Capture of an early fusion-active conformation of HIV-1 gp41

Furuta¹,

Wild²,

Weng³

et al. 1998

Nat Struct Mol Biol

126

180

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Peptides Trap the Human Immunodeficiency Virus Type 1 Envelope Glycoprotein Fusion Intermediate at Two Sites

Vassell

Zaitseva

et al. 2003

J Virol

135

108

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HR peptide and compare these data with inhibition by a C-HR peptide. Using intact envelope glycoprotein (Env) under fusogenic conditions, we show that the N-HR peptide preferentially binds receptor-activated Env and that CD4 binding is sufficient for triggering conformational changes that allow the peptide to bind Env, results similar to those seen with the C-HR peptide. However, activation by both CD4 and chemokine receptors further enhances Env binding by both peptides. We also show that a nonconservative mutation in the N-HR of gp41 abolishes C-HR peptide but not N-HR peptide binding to gp41. These results indicate that there are two distinct sites in receptor-activated Env that are potential targets for drug or vaccine development.The human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein (Env) mediates virus attachment and fusion to target cells. Binding of the surface subunit (gp120) of Env to the CD4 and chemokine cellular receptors triggers conformational changes in the oligomeric Env complex that activate the membrane fusion activity of the transmembrane subunit (gp41). A detailed understanding of these structural changes in Env would create new opportunities to prevent and treat HIV infection.A leading model of HIV entry proposes substantial refolding of Env, in which Env transitions from a metastable, native (prefusion) conformation through a prehairpin fusion intermediate to a thermostable, six-helix bundle structure (Fig.

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Yongkai Weng

Mutations of the VHL tumour suppressor gene in renal carcinoma

Silencing of the VHL tumor-suppressor gene by DNA methylation in renal carcinoma.

Capture of an early fusion-active conformation of HIV-1 gp41

Capture of an early fusion-active conformation of HIV-1 gp41

Peptides Trap the Human Immunodeficiency Virus Type 1 Envelope Glycoprotein Fusion Intermediate at Two Sites

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