Abstract

<div>Abstract<p>B7 homolog 1 (B7-H1)–expressing myeloma cells not only inhibit myeloma-specific cytotoxic T lymphocytes (CTL), but also confer a proliferative advantage: resistance to antimyeloma chemotherapy. However, it remains unknown whether B7-H1 expressed on myeloma cells induces cellular responses associated with aggressive myeloma behaviors. To address this question, we analyzed the proliferation and drug sensitivity of B7-H1–expressing myeloma cells transfected with B7-H1–specific short-hairpin RNA or treated with programmed cell death (PD)-1-Fc–coupled beads. Knockdown of B7-H1 expression in myeloma cells significantly inhibited cell proliferation and increased apoptosis induced by the chemotherapeutic alkylating agent melphalan, with downregulation of the expression of cell cycle–related genes (<i>CCND3</i> and <i>CDK6</i>) and antiapoptotic genes (<i>BCL2</i> and <i>MCL1</i>). B7-H1 molecules thus contributed to myeloma cell-cycle progression and suppression of drug-induced apoptosis. B7-H1–expressing myeloma cells had a higher affinity for PD-1 than for CD80. PD-1-Fc bead–treated myeloma cells also became resistant to apoptosis that was induced by melphalan and the proteasome inhibitor bortezomib. Apoptosis resistance was associated with the PI3K/AKT pathway. Both myeloma cell drug resistance and antiapoptotic responses occurred through the PI3K/AKT signaling pathway, initiated from “reverse” stimulation of B7-H1 by PD-1. Therefore, B7-H1 itself may function as an oncogenic protein in myeloma cells. The interaction between B7-H1 on myeloma cells and PD-1 molecules not only inhibits tumor-specific CTLs but also induces drug resistance in myeloma cells through the PI3K/AKT signaling pathway. These observations provide mechanistic insights into potential immunotherapeutic benefits of blocking the B7-H1–PD-1 pathway. <i>Cancer Immunol Res; 4(9); 779–88. ©2016 AACR</i>.</p></div>

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