Angela Ying Jian Li scite author profile

The majority of broadly neutralizing antibodies to hepatitis C virus (HCV) are against conformational epitopes on the E2 glycoprotein. Many of them recognize overlapping epitopes in a cluster, designated as antigenic domain B, that contains residues G530 and D535. To gain information on other regions that will be relevant for vaccine design, we employed yeast surface display of antibodies that bound to genotype 1a H77C E2 mutant proteins containing a substitution either at Y632A (to avoid selecting non-neutralizing antibodies) or D535A. A panel of nine human monoclonal antibodies (HMAbs) was isolated and designated as HC-84-related antibodies. Each HMAb neutralized cell culture infectious HCV (HCVcc) with genotypes 1–6 envelope proteins with varying profiles, and each inhibited E2 binding to the viral receptor CD81. Five of these antibodies neutralized representative genotypes 1–6 HCVcc. Epitope mapping identified a cluster of overlapping epitopes that included nine contact residues in two E2 regions encompassing aa418–446 and aa611–616. Effect on virus entry was measured using H77C HCV retroviral pseudoparticles, HCVpp, bearing an alanine substitution at each of the contact residues. Seven of ten mutant HCVpp showed over 90% reduction compared to wild-type HCVpp and two others showed approximately 80% reduction. Interestingly, four of these antibodies bound to a linear E2 synthetic peptide encompassing aa434–446. This region on E2 has been proposed to elicit non-neutralizing antibodies in humans that interfere with neutralizing antibodies directed at an adjacent E2 region from aa410–425. The isolation of four HC-84 HMAbs binding to the peptide, aa434–446, proves that some antibodies to this region are to highly conserved epitopes mediating broad virus neutralization. Indeed, when HCVcc were passaged in the presence of each of these antibodies, virus escape was not observed. Thus, the cluster of HC-84 epitopes, designated as antigenic domain D, is relevant for vaccine design for this highly diverse virus.

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Overexpression of HMGA2 Promotes Metastasis and Impacts Survival of Colorectal Cancers

Wang

Liu

et al. 2011

167

156

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Purpose: This study aims to address the hypothesis that the high-mobility group A2 (HMGA2), an oncofetal protein, relates to survivability and serves as a prognostic biomarker for colorectal cancer (CRC).Experimental Design: This is a retroprospective multiple center study. The HMGA2 expression level was determined by performing immunohistochemistry on surgical tissue samples of 89 CRCs from a training set and 191 CRCs from a validation set. The Kaplan-Meier analysis and COX proportional hazard model were employed to analyze the survivability.Results: Multivariate logistic analysis indicated that the expression of HMGA2 significantly correlates with distant metastasis in training set (odds ratio, OR ¼ 3.53, 95% CI: 1.37-9.70) and validation set (OR ¼ 6.38, 95% CI: 1.47-43.95). Survival analysis revealed that the overexpression of HMGA2 is significantly associated with poor survival of CRC patients (P < 0.05). The adjusted HRs for overall survival were 2.38 (95% CI: 1.30-4.34) and 2.14 (95% CI: 1.21-3.79) in training and validation sets, respectively. Further investigation revealed that HMGA2 delays the clearance of g-H2AX in HCT-116 and SW480 cells post g-irradiation, which supports our finding that CRC patients with HMAG2-positive staining in primary tumors had augmented the efficacy of adjuvant radiotherapy (HR ¼ 0.18, 95% CI: 0.04-0.63).Conclusion: Overexpression of HMGA2 is associated with metastasis and unequivocally occurred in parallel with reduced survival rates of patients with CRC. Therefore, HMGA2 may potentially serve as a biomarker for predicting aggressive CRC with poor survivability and as an indicator for better response of radiotherapy.

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High-Mobility Group A2 Protein Modulates hTERT Transcription To Promote Tumorigenesis

Lin

Kuo

et al. 2011

Molecular and Cellular Biology

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The high-mobility group A2 gene (HMGA2) is one of the most frequently amplified genes in human cancers. However, functions of HMGA2 in tumorigenesis are not fully understood due to limited knowledge of its targets in tumor cells. Our study reveals a novel link between HMGA2 and the regulation of human telomerase reverse transcriptase (hTERT), the catalytic subunit of telomerase, which offers critical insight into how HMGA2 contributes to tumorigenesis. The expression of HMGA2 modulates the expression of hTERT, resulting in cells with enhanced telomerase activities and increased telomere length. Treatment with suberoylanilide hydroxamide (SAHA), a histone deacetylase (HDAC) inhibitor, causes dose-dependent hTERT reporter activation, mimicking HMGA2 overexpression. By interacting with Sp1, HMGA2 interferes with the recruitment of HDAC2 to the hTERT proximal promoter, enhancing localized histone H3-K9 acetylation and thereby stimulating hTERT expression and telomerase activity. Moreover, HMGA2 knockdown by short hairpin HMGA2 in HepG2 cells leads to progressive telomere shortening and a concurrent decrease of steady-state hTERT mRNA levels, attenuating their ability to form colonies in soft agar. Importantly, HMGA2 partially replaces the function of hTERT during the tumorigenic transformation of normal human fibroblasts. These findings are potentially clinically relevant, because HMGA2 expression is reported to be upregulated in a number of human cancers as telomere maintenance is essential for tumorigenesis.

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