BCL6 repression of EP300 in human diffuse large B cell lymphoma cells provides a basis for rational combinatorial therapy
Leandro C. Cerchietti, Katerina Hatzi, Eloisi Caldas-Lopes, Shao Ning Yang, Maria E. Figueroa, Ryan D. Morin, Martin Hirst, Lourdes Mendez, Rita Shaknovich, Philip A. Cole, Kapil Bhalla, Randy D. Gascoyne, Marco Marra, Gabriela Chiosis, Ari Melnick
Leandro C. Cerchietti, Katerina Hatzi, Eloisi Caldas-Lopes, Shao Ning Yang, Maria E. Figueroa, Ryan D. Morin, Martin Hirst, Lourdes Mendez, Rita Shaknovich, Philip A. Cole, Kapil Bhalla, Randy D. Gascoyne, Marco Marra, Gabriela Chiosis, Ari Melnick
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Research Article Oncology

BCL6 repression of EP300 in human diffuse large B cell lymphoma cells provides a basis for rational combinatorial therapy

Abstract

B cell lymphoma 6 (BCL6), which encodes a transcriptional repressor, is a critical oncogene in diffuse large B cell lymphomas (DLBCLs). Although a retro-inverted BCL6 peptide inhibitor (RI-BPI) was recently shown to potently kill DLBCL cells, the underlying mechanisms remain unclear. Here, we show that RI-BPI induces a particular gene expression signature in human DLBCL cell lines that included genes associated with the actions of histone deacetylase (HDAC) and Hsp90 inhibitors. BCL6 directly repressed the expression of p300 lysine acetyltransferase (EP300) and its cofactor HLA-B–associated transcript 3 (BAT3). RI-BPI induced expression of p300 and BAT3, resulting in acetylation of p300 targets including p53 and Hsp90. Induction of p300 and BAT3 was required for the antilymphoma effects of RI-BPI, since specific blockade of either protein rescued human DLBCL cell lines from the BCL6 inhibitor. Consistent with this, combination of RI-BPI with either an HDAC inhibitor (HDI) or an Hsp90 inhibitor potently suppressed or even eradicated established human DLBCL xenografts in mice. Furthermore, HDAC and Hsp90 inhibitors independently enhanced RI-BPI killing of primary human DLBCL cells in vitro. We also show that p300-inactivating mutations occur naturally in human DLBCL patients and may confer resistance to BCL6 inhibitors. Thus, BCL6 repression of EP300 provides a basis for rational targeted combinatorial therapy for patients with DLBCL.

Authors

Leandro C. Cerchietti, Katerina Hatzi, Eloisi Caldas-Lopes, Shao Ning Yang, Maria E. Figueroa, Ryan D. Morin, Martin Hirst, Lourdes Mendez, Rita Shaknovich, Philip A. Cole, Kapil Bhalla, Randy D. Gascoyne, Marco Marra, Gabriela Chiosis, Ari Melnick

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Figure 6

SAHA enhances RI-BPI antilymphoma effect in vivo.

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SAHA enhances RI-BPI antilymphoma effect in vivo. (A and B) Left panels:...
(A and B) Left panels: tumor growth plots in Farage (A) and OCI-Ly7 (B) xenografted mice treated with control (DMSO, 10% in saline, n = 10, black squares), RI-BPI (25 mg/kg/d) (n = 5, white squares), SAHA (20 mg/kg/d) (n = 5, gray squares), or the combination of RI-BPI and SAHA (n = 5, black circles) for 10 consecutive days. The y axis indicates tumor volume (in mm3) and the x axis days of treatment. P values represent the comparison of tumor volumes in treated to control mice at day 9 by t test. Right panels, top: Serum levels of human β2-microglobulin (in μg/ml) at day 10 in Farage (A) and OCI-Ly7 (B) mice treated with control (C), RI-BPI (B), SAHA (S), and a combination (B+S). Right panels, bottom: tumor burden (in grams) at day 10 in Farage (A) and OCI-Ly7 (B) mice treated with control, RI-BPI, SAHA, and a combination. In all the cases, the P values were obtained by t test comparisons of treated versus control mice. (C) Representative immunohistochemistry images from Farage and OCI-Ly7 mouse tumors after treatment with control, SAHA, RI-BPI, or the combination of RI-BPI and SAHA assayed for apoptosis by TUNEL staining. Scale bar: 200 μm. Data are presented as mean with 95% CI.