| Literature DB >> 35305314 |
Roei D Mazor1, Nachum Nathan2, Amit Gilboa3, Liat Stoler-Barak2, Lihee Moss2, Inna Solomonov4, Assaf Hanuna4, Yalin Divinsky2, Merav D Shmueli2, Hadas Hezroni2, Irina Zaretsky5, Michael Mor6, Ofra Golani7, Gad Sabah8, Ariella Jakobson-Setton8, Natalia Yanichkin9, Meora Feinmesser9, Daliah Tsoref10, Lina Salman8, Effi Yeoshoua8, Eyal Peretz11, Inna Erlich11, Netta Mendelson Cohen12, Jonathan M Gershoni13, Natalia Freund6, Yifat Merbl2, Gur Yaari3, Ram Eitan8, Irit Sagi14, Ziv Shulman15.
Abstract
The tumor microenvironment hosts antibody-secreting cells (ASCs) associated with a favorable prognosis in several types of cancer. Patient-derived antibodies have diagnostic and therapeutic potential; yet, it remains unclear how antibodies gain autoreactivity and target tumors. Here, we found that somatic hypermutations (SHMs) promote antibody antitumor reactivity against surface autoantigens in high-grade serous ovarian carcinoma (HGSOC). Patient-derived tumor cells were frequently coated with IgGs. Intratumoral ASCs in HGSOC were both mutated and clonally expanded and produced tumor-reactive antibodies that targeted MMP14, which is abundantly expressed on the tumor cell surface. The reversion of monoclonal antibodies to their germline configuration revealed two types of classes: one dependent on SHMs for tumor binding and a second with germline-encoded autoreactivity. Thus, tumor-reactive autoantibodies are either naturally occurring or evolve through an antigen-driven selection process. These findings highlight the origin and potential applicability of autoantibodies directed at surface antigens for tumor targeting in cancer patients.Entities:
Keywords: B cells; HGSOC; MMP14; MT1-MMP; antibodies; antibody-mediated immune response; autoantibodies; cancer; ovarian cancer; plasma cells
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Year: 2022 PMID: 35305314 DOI: 10.1016/j.cell.2022.02.012
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 66.850