Identification of kinetin riboside as a repressor of CCND1 and CCND2 with preclinical antimyeloma activity
Rodger E. Tiedemann, … , Aaron D. Schimmer, A. Keith Stewart
Rodger E. Tiedemann, … , Aaron D. Schimmer, A. Keith Stewart
Published April 22, 2008
Citation Information: J Clin Invest. 2008;118(5):1750-1764. https://doi.org/10.1172/JCI34149.
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Research Article Oncology

Identification of kinetin riboside as a repressor of CCND1 and CCND2 with preclinical antimyeloma activity

Abstract

Knockout and transgenic studies in mice demonstrate that normal somatic tissues redundantly express 3 cyclin D proteins, whereas tumor cells seem dependent on a single overexpressed cyclin D. Thus, selective suppression of the individual cyclin D deregulated in a tumor represents a biologically valid approach to targeted cancer therapy. In multiple myeloma, overexpression of 1 of the cyclin D proteins is a ubiquitous feature, unifying at least 7 different initiating genetic events. We demonstrate here that RNAi of genes encoding cyclin D1 and cyclin D2 (CCND1 and CCND2, respectively) inhibits proliferation and is progressively cytotoxic in human myeloma cells. By screening a chemical library using a cell-based assay for inhibition of CCND2 trans-activation, we identified the plant cytokinin kinetin riboside as an inhibitor of CCND2 trans-activation. Kinetin riboside induced marked suppression of CCND2 transcription and rapidly suppressed cyclin D1 and D2 protein expression in primary myeloma cells and tumor lines, causing cell-cycle arrest, tumor cell–selective apoptosis, and inhibition of myeloma growth in xenografted mice. Mechanistically, kinetin riboside upregulated expression of transcription repressor isoforms of cAMP-response element modulator (CREM) and blocked both trans-activation of CCND2 by various myeloma oncogenes and cis-activation of translocated CCND1, suggesting induction of an overriding repressor activity that blocks multiple oncogenic pathways targeting cyclin D genes. These data support targeted repression of cyclin D genes as a therapeutic strategy for human malignancies.

Authors

Rodger E. Tiedemann, Xinliang Mao, Chang-Xin Shi, Yuan Xiao Zhu, Stephen E. Palmer, Michael Sebag, Ron Marler, Marta Chesi, Rafael Fonseca, P. Leif Bergsagel, Aaron D. Schimmer, A. Keith Stewart

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Figure 8

Kinetin riboside induces transcriptional repressors CREM and BACH2 and blocks cAMP- and PP2A-induced CCND2 promoter activation.

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Kinetin riboside induces transcriptional repressors CREM and BACH2 and b...
(A) 3T3 CCND2-LUC reporter cells were incubated with kinetin riboside or vehicle plus or minus forskolin, RO-20-1724, cantharidin, or A-134974, as specified (5 μM) for 16 hours; CCND2 trans-activation and viability were then assessed. Forskolin activates adenylate cyclase; RO-20-1724 inhibits cAMP phosphodiesterase; both cause increased cAMP signaling, which is seen to activate the CCND2 promoter. Cantharidin inhibits PP2A and also stimulates CCND2 promoter transcription. As shown, kinetin riboside blocks CCND2 promoter trans-activation by cAMP or PP2A-related phosphoproteins, initiated by forskolin, RO-20-1724, or cantharidin. Results represent 1 of 2 experiments and are shown as the mean of duplicate samples ± SEM. (B) H929 and U266 myeloma cells were treated with kinetin riboside (10 μM) for 4 hours and then processed for quantitative RT-PCR. Relative expression of genes determined by RT-PCR was normalized to H929 cells treated with vehicle alone and is plotted as the mean of replicates; error bars show the range. Consistent with gene-expression profiling analysis, quantitative RTPCR confirms that kinetin riboside rapidly induces CREM and BACH2 transcriptional repressors in both H929 and U266; parallel early suppression of CCND1 is also shown. (C) A pCMV-SPORT6 vector expressing the induced CREM repressor cDNA or a control pCMV-SPORT6 vector was cotransfected with the CCND2-LUC reporter into KMS11 myeloma cells, and CCND2 promoter activity was determined by LUC assay at 30 hours. Expression of the CREM repressor caused suppression of CCND2 promoter activity.