JCI Insight (Mar 2023)

Selective suppression of de novo SARS-CoV-2 vaccine antibody responses in patients with cancer on B cell–targeted therapy

  • Joseph H. Azar,
  • John P. Evans,
  • Madison H. Sikorski,
  • Karthik B. Chakravarthy,
  • Selah McKenney,
  • Ian Carmody,
  • Cong Zeng,
  • Rachael Teodorescu,
  • No-Joon Song,
  • Jamie L. Hamon,
  • Donna Bucci,
  • Maria Velegraki,
  • Chelsea Bolyard,
  • Kevin P. Weller,
  • Sarah A. Reisinger,
  • Seema A. Bhat,
  • Kami J. Maddocks,
  • Nathan Denlinger,
  • Narendranath Epperla,
  • Richard J. Gumina,
  • Anastasia N. Vlasova,
  • Eugene M. Oltz,
  • Linda J. Saif,
  • Dongjun Chung,
  • Jennifer A. Woyach,
  • Peter G. Shields,
  • Shan-Lu Liu,
  • Zihai Li,
  • Mark P. Rubinstein

Journal volume & issue
Vol. 8, no. 6

Abstract

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We assessed vaccine-induced antibody responses to the SARS-CoV-2 ancestral virus and Omicron variant before and after booster immunization in 57 patients with B cell malignancies. Over one-third of vaccinated patients at the pre-booster time point were seronegative, and these patients were predominantly on active cancer therapies such as anti-CD20 monoclonal antibody. While booster immunization was able to induce detectable antibodies in a small fraction of seronegative patients, the overall booster benefit was disproportionately evident in patients already seropositive and not receiving active therapy. While ancestral virus– and Omicron variant–reactive antibody levels among individual patients were largely concordant, neutralizing antibodies against Omicron tended to be reduced. Interestingly, in all patients, including those unable to generate detectable antibodies against SARS-CoV-2 spike, we observed comparable levels of EBV- and influenza-reactive antibodies, demonstrating that B cell–targeting therapies primarily impair de novo but not preexisting antibody levels. These findings support rationale for vaccination before cancer treatment.

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