Dengue virus (DENV) infection remains a serious health threat despite the availability of supportive care in modern medicine. Monoclonal antibodies (mAbs) of DENV would be powerful research tools for antiviral development, diagnosis and pathological investigations. Here we described generation and characterization of seventeen mAbs with high reactivity for E protein of DENV. Four of these mAbs showed high neutralizing activity against DENV-2 infection in mice. The monoclonal antibody mAb DB32-6 showed the strongest neutralizing activity against diverse DENV-2 and protected DENV-2-infected mice against mortality in therapeutic models. We identified neutralizing epitopes of DENV located at residues K310 and E311 of viral envelope protein domain III (E-DIII) through the combination of biological and molecular strategies. Comparing the strong neutralizing activity of mAbs targeting A-strand with mAbs targeting lateral ridge, we found that epitopes located in A-strand induced stronger neutralizing activity than those located on the lateral ridge. DB32-6 humanized version was successfully developed. Humanized DB32-6 variant retained neutralizing activity and prevented DENV infection. Understanding the epitope-based antibody-mediated neutralization is crucial to controlling dengue infection. Additionally, this study also introduces a novel humanized mAb as a candidate for therapy of dengue patients

AB Sabin

AC Schmidt

AF LoBuglio

AJ Hessell

AP Goncalvez

Aravinda M. de Silva

B Shrestha

Chien-Yu Chiu

CJ Lai

CM Rice

CY Lai

CY Yu

DJ Gubler

E Pokidysheva

EM Bublil

GD Gromowski

GJ Chang

Gwong-Jen J. Chang

H Sultana

Han-Chung Wu

HC Wu

I-Ju Liu

IJ Liu

JE Durbin

Jian-Jong Liang

JT Roehrig

KJ Huang

LE Yauch

M Beltramello

M Throsby

MA Roguska

Mei-Ying Liao

MG Guzman

MK Gentry

MP Lefranc

Pi-Chun Li

Ping-Chang Cheng

R de Alwis

R Littaua

R Orlandi

R Rajamanonmani

RJ Kuhn

S Dubel

S Kalayanarooj

S Mukhopadhyay

S Sukupolvi-Petty

SB Halstead

SM Lok

SS Whitehead

ST Chen

T Oliphant

TC Pierson

W Dejnirattisai

WD Crill

WM Wahala

Y Modis

YC Chen

Yi-Ling Lin

YL Lin

English

PubMed

BACKGROUND: Dengue virus (DENV) is a significant public health threat in tropical and subtropical regions of the world. A therapeutic antibody against the viral envelope (E) protein represents a promising immunotherapy for disease control. METHODOLOGY/PRINCIPAL FINDINGS: We generated seventeen novel mouse monoclonal antibodies (mAbs) with high reactivity against E protein of dengue virus type 2 (DENV-2). The mAbs were further dissected using recombinant E protein domain I-II (E-DI-II) and III (E-DIII) of DENV-2. Using plaque reduction neutralization test (PRNT) and mouse protection assay with lethal doses of DENV-2, we identified four serotype-specific mAbs that had high neutralizing activity against DENV-2 infection. Of the four, E-DIII targeting mAb DB32-6 was the strongest neutralizing mAb against diverse DENV-2 strains. Using phage display and virus-like particles (VLPs) we found that residue K310 in the E-DIII A-strand was key to mAb DB32-6 binding E-DIII. We successfully converted DB32-6 to a humanized version that retained potency for the neutralization of DENV-2 and did not enhance the viral infection. The DB32-6 showed therapeutic efficacy against mortality induced by different strains of DENV-2 in two mouse models even in post-exposure trials. CONCLUSIONS/SIGNIFICANCE: We used novel epitope mapping strategies, by combining phage display with VLPs, to identify the important A-strand epitopes with strong neutralizing activity. This study introduced potential therapeutic antibodies that might be capable of providing broad protection against diverse DENV-2 infections without enhancing activity in humans

Gwong-Jen J Chang

Directory of Open Access Journals

PLoS Neglected Tropical Diseases

Development of a humanized antibody with high therapeutic potential against dengue virus type 2.

Dengue virus (DENV) is a significant public health threat in tropical and subtropical regions of the world. A therapeutic antibody against the viral envelope (E) protein represents a promising immunotherapy for disease control.We generated seventeen novel mouse monoclonal antibodies (mAbs) with high reactivity against E protein of dengue virus type 2 (DENV-2). The mAbs were further dissected using recombinant E protein domain I-II (E-DI-II) and III (E-DIII) of DENV-2. Using plaque reduction neutralization test (PRNT) and mouse protection assay with lethal doses of DENV-2, we identified four serotype-specific mAbs that had high neutralizing activity against DENV-2 infection. Of the four, E-DIII targeting mAb DB32-6 was the strongest neutralizing mAb against diverse DENV-2 strains. Using phage display and virus-like particles (VLPs) we found that residue K310 in the E-DIII A-strand was key to mAb DB32-6 binding E-DIII. We successfully converted DB32-6 to a humanized version that retained potency for the neutralization of DENV-2 and did not enhance the viral infection. The DB32-6 showed therapeutic efficacy against mortality induced by different strains of DENV-2 in two mouse models even in post-exposure trials.We used novel epitope mapping strategies, by combining phage display with VLPs, to identify the important A-strand epitopes with strong neutralizing activity. This study introduced potential therapeutic antibodies that might be capable of providing broad protection against diverse DENV-2 infections without enhancing activity in humans

Li Pi-Chun

Liao Mei-Ying

Cheng Ping-Chang

Liang Jian-Jong

Liu I-Ju

Chiu Chien-Yu

Lin Yi-Ling

Chang Gwong-Jen J.

Wu Han-Chung

Public Library of Science (PLOS)

Development of a Humanized Antibody with High Therapeutic Potential against Dengue Virus Type 2

<div><h3>Background</h3><p>Dengue virus (DENV) is a significant public health threat in tropical and subtropical regions of the world. A therapeutic antibody against the viral envelope (E) protein represents a promising immunotherapy for disease control.</p> <h3>Methodology/Principal Findings</h3><p>We generated seventeen novel mouse monoclonal antibodies (mAbs) with high reactivity against E protein of dengue virus type 2 (DENV-2). The mAbs were further dissected using recombinant E protein domain I-II (E-DI-II) and III (E-DIII) of DENV-2. Using plaque reduction neutralization test (PRNT) and mouse protection assay with lethal doses of DENV-2, we identified four serotype-specific mAbs that had high neutralizing activity against DENV-2 infection. Of the four, E-DIII targeting mAb DB32-6 was the strongest neutralizing mAb against diverse DENV-2 strains. Using phage display and virus-like particles (VLPs) we found that residue K310 in the E-DIII A-strand was key to mAb DB32-6 binding E-DIII. We successfully converted DB32-6 to a humanized version that retained potency for the neutralization of DENV-2 and did not enhance the viral infection. The DB32-6 showed therapeutic efficacy against mortality induced by different strains of DENV-2 in two mouse models even in post-exposure trials.</p> <h3>Conclusions/Significance</h3><p>We used novel epitope mapping strategies, by combining phage display with VLPs, to identify the important A-strand epitopes with strong neutralizing activity. This study introduced potential therapeutic antibodies that might be capable of providing broad protection against diverse DENV-2 infections without enhancing activity in humans.</p> </div

Pi-Chun Li (167259)

Mei-Ying Liao (167265)

Ping-Chang Cheng (167270)

Jian-Jong Liang (155301)

I-Ju Liu (167277)

Chien-Yu Chiu (167280)

Yi-Ling Lin (63628)

Gwong-Jen J. Chang (132043)

Han-Chung Wu (167288)

The Francis Crick Institute

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Development of a Humanized Antibody with High Therapeutic Potential against Dengue Virus Type 2

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