Dinaciclib induces immunogenic cell death and enhances anti-PD1–mediated tumor suppression
Dewan Md Sakib Hossain, … , Elaine M. Pinheiro, Alissa Chackerian
Dewan Md Sakib Hossain, … , Elaine M. Pinheiro, Alissa Chackerian
Published January 16, 2018
Citation Information: J Clin Invest. 2018;128(2):644-654. https://doi.org/10.1172/JCI94586.
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Research Article Oncology

Dinaciclib induces immunogenic cell death and enhances anti-PD1–mediated tumor suppression

Abstract

Blockade of the checkpoint inhibitor programmed death 1 (PD1) has demonstrated remarkable success in the clinic for the treatment of cancer; however, a majority of tumors are resistant to anti-PD1 monotherapy. Numerous ongoing clinical combination therapy studies will likely reveal additional therapeutics that complement anti-PD1 blockade. Recent studies found that immunogenic cell death (ICD) improves T cell responses against different tumors, thus indicating that ICD may further augment antitumor immunity elicited by anti-PD1. Here, we observed antitumor activity following combinatorial therapy with anti-PD1 Ab and the cyclin-dependent kinase inhibitor dinaciclib in immunocompetent mouse tumor models. Dinaciclib induced a type I IFN gene signature within the tumor, leading us to hypothesize that dinaciclib potentiates the effects of anti-PD1 by eliciting ICD. Indeed, tumor cells treated with dinaciclib showed the hallmarks of ICD including surface calreticulin expression and release of high mobility group box 1 (HMGB1) and ATP. Mice treated with both anti-PD1 and dinaciclib showed increased T cell infiltration and DC activation within the tumor, indicating that this combination improves the overall quality of the immune response generated. These findings identify a potential mechanism for the observed benefit of combining dinaciclib and anti-PD1, in which dinaciclib induces ICD, thereby converting the tumor cell into an endogenous vaccine and boosting the effects of anti-PD1.

Authors

Dewan Md Sakib Hossain, Sarah Javaid, Mingmei Cai, Chunsheng Zhang, Anandi Sawant, Marlene Hinton, Manjiri Sathe, Jeff Grein, Wendy Blumenschein, Elaine M. Pinheiro, Alissa Chackerian

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Figure 3

Dinaciclib treatment induces a type I IFN signature within tumors.

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Dinaciclib treatment induces a type I IFN signature within tumors. (A) F...
(A) Fluidigm qPCR analysis of MC38, CT26, and MB49 cells treated with dinaciclib in vitro for 24 hours either continuously or by washing and replacing medium after a 2-hour pulse. Heatmap indicates type I IFN signature genes with a greater-than 2-fold change (log10 scale) over the untreated control and a P value of less than 0.05. Genes with a FC of less than 2 and a P value of greater than 0.05 are blacked out. (B and C) Mice bearing 100 mm3 MC38 tumors were treated as described in Figure 1. Twenty-four hours after the first dose, tumors were isolated, and gene expression was analyzed by RNA sequencing (n = 5/group). (B) The top upregulated functional pathways in the dinaciclib and dinaciclib plus anti-PD1 groups as determined by GO analysis and IPA. (C) Expression of type I IFN response genes is depicted by a heatmap showing the log10 FC only of genes that were significantly upregulated (>2-fold and P < 0.01) compared with the isotype control group. Genes that were upregulated by less than 2-fold and that had a P value of greater than 0.01 are blacked out (represented as FC = 0).