Monoclonal antibodies targeting nonstructural viral antigens can activate ADCC against human cytomegalovirus
Virginia-Maria Vlahava, … , Eddie C.Y. Wang, Richard J. Stanton
Virginia-Maria Vlahava, … , Eddie C.Y. Wang, Richard J. Stanton
Published February 15, 2021
Citation Information: J Clin Invest. 2021;131(4):e139296. https://doi.org/10.1172/JCI139296.
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Research Article Immunology Virology

Monoclonal antibodies targeting nonstructural viral antigens can activate ADCC against human cytomegalovirus

Abstract

Human cytomegalovirus (HCMV) is a ubiquitous pathogen that causes severe disease following congenital infection and in immunocompromised individuals. No vaccines are licensed, and there are limited treatment options. We now show that the addition of anti-HCMV antibodies (Abs) can activate NK cells prior to the production of new virions, through Ab-dependent cellular cytotoxicity (ADCC), overcoming viral immune evasins. Quantitative proteomics defined the most abundant HCMV proteins on the cell surface, and we screened these targets to identify the viral antigens responsible for activating ADCC. Surprisingly, these were not structural glycoproteins; instead, the immune evasins US28, RL11, UL5, UL141, and UL16 each individually primed ADCC. We isolated human monoclonal Abs (mAbs) specific for UL16 or UL141 from a seropositive donor and optimized them for ADCC. Cloned Abs targeting a single antigen (UL141) were sufficient to mediate ADCC against HCMV-infected cells, even at low concentrations. Collectively, these findings validated an unbiased methodological approach to the identification of immunodominant viral antigens, providing a pathway toward an immunotherapeutic strategy against HCMV and potentially other pathogens.

Authors

Virginia-Maria Vlahava, Isa Murrell, Lihui Zhuang, Rebecca J. Aicheler, Eleanor Lim, Kelly L. Miners, Kristin Ladell, Nicolás M. Suárez, David A. Price, Andrew J. Davison, Gavin W.G. Wilkinson, Mark R. Wills, Michael P. Weekes, Eddie C.Y. Wang, Richard J. Stanton

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Figure 5

Optimized anti-UL16 and anti-UL141 mAbs activate ADCC efficiently against adenovirally expressed UL16 and UL141.

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Optimized anti-UL16 and anti-UL141 mAbs activate ADCC efficiently agains...
HFFF-hCARs were transduced with RAds expressing wild-type UL16 or UL141. An identical vector lacking a transgene was used as a control. (A) Percentage of degranulation of CD56+CD57+ NK cells among PBMCs in the presence of transduced HFFF-hCARs and different concentrations of native or Fc-engineered (modified) UL16-specific mAbs (tetravalent mixes). (B) As in A for UL141 (pentavalent mixes). (C) Percentage of degranulation of CD56+CD57+ NK cells among PBMCs in the presence of transduced HFFF-hCARs and Cytotect, seronegative IgGs, or tetravalent mixes of native or Fc-engineered (modified) UL16-specific mAbs (native Abs each at 30 μg/mL; Fc-engineered [modified] mAbs each at 1 μg/mL). (D) As in C for UL141 (pentavalent mixes). (E) As in C for individual Fc-engineered (modified) UL16-specific mAbs. (F) As in D for individual Fc-engineered (modified) UL141-specific mAbs. Results are representative of at least 3 experiments. All data are shown as the mean ± SD of triplicate samples. All experiments were performed 48 hours after transduction. ***P < 0.001 and ****P < 0.0001, by 2-way ANOVA. Mod, modified.