Literature DB >> 25891346

Romidepsin in peripheral and cutaneous T-cell lymphoma: mechanistic implications from clinical and correlative data.

Susan E Bates1, Robin Eisch1, Alexander Ling2, Douglas Rosing3, Maria Turner4, Stefania Pittaluga5, H Miles Prince6, Mark H Kirschbaum7, Steven L Allen8, Jasmine Zain9, Larisa J Geskin10, David Joske11, Leslie Popplewell12, Edward W Cowen4, Elaine S Jaffe5, Jean Nichols13, Sally Kennedy14, Seth M Steinberg15, David J Liewehr15, Louise C Showe16, Caryn Steakley17, John Wright18, Tito Fojo17, Thomas Litman19, Richard L Piekarz18.   

Abstract

Romidepsin is an epigenetic agent approved for the treatment of patients with cutaneous or peripheral T-cell lymphoma (CTCL and PTCL). Here we report data in all patients treated on the National Cancer Institute 1312 trial, demonstrating long-term disease control and the ability to retreat patients relapsing off-therapy. In all, 84 patients with CTCL and 47 with PTCL were enrolled. Responses occurred early, were clinically meaningful and of very long duration in some cases. Notably, patients with PTCL receiving romidepsin as third-line therapy or later had a comparable response rate (32%) of similar duration as the total population (38%). Eight patients had treatment breaks of 3.5 months to 10 years; in four of six patients, re-initiation of treatment led to clear benefit. Safety data show slightly greater haematological and constitutional toxicity in PTCL. cDNA microarray studies show unique individual gene expression profiles, minimal overlap between patients, and both induction and repression of gene expression that reversed within 24 h. These data argue against cell death occurring as a result of an epigenetics-mediated gene induction programme. Together this work supports the safety and activity of romidepsin in T-cell lymphoma, but suggests a complex mechanism of action.
© 2015 John Wiley & Sons Ltd.

Entities:  

Keywords:  T-cell lymphoma; chromatin; epigenetic therapy; histone deacetylase inhibitor; romidepsin

Mesh:

Substances:

Year:  2015        PMID: 25891346      PMCID: PMC4675455          DOI: 10.1111/bjh.13400

Source DB:  PubMed          Journal:  Br J Haematol        ISSN: 0007-1048            Impact factor:   6.998


  62 in total

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Journal:  Cell Cycle       Date:  2005-05-28       Impact factor: 4.534

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Authors:  Richard L Piekarz; A Robin Frye; John J Wright; Seth M Steinberg; David J Liewehr; Douglas R Rosing; Vandana Sachdev; Tito Fojo; Susan E Bates
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6.  Romidepsin: a new drug for the treatment of cutaneous T-cell lymphoma.

Authors:  Robin Frye; Mary Myers; Karen C Axelrod; Elizabeth A Ness; Richard L Piekarz; Susan E Bates; Susan Booher
Journal:  Clin J Oncol Nurs       Date:  2012-04       Impact factor: 1.027

7.  Identification of cytochrome P450 enzymes involved in the metabolism of FK228, a potent histone deacetylase inhibitor, in human liver microsomes.

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8.  Phase I trial of the histone deacetylase inhibitor, depsipeptide (FR901228, NSC 630176), in patients with refractory neoplasms.

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10.  T-cell lymphoma as a model for the use of histone deacetylase inhibitors in cancer therapy: impact of depsipeptide on molecular markers, therapeutic targets, and mechanisms of resistance.

Authors:  Richard L Piekarz; Robert W Robey; Zhirong Zhan; Ganesh Kayastha; Anousheh Sayah; Amina H Abdeldaim; Sonia Torrico; Susan E Bates
Journal:  Blood       Date:  2004-03-02       Impact factor: 22.113
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3.  Romidepsin enhances the cytotoxicity of fludarabine, clofarabine and busulfan combination in malignant T-cells.

Authors:  Benigno C Valdez; Jonathan E Brammer; Yang Li; David Murray; Esmeralda C Teo; Yan Liu; Chitra Hosing; Yago Nieto; Richard E Champlin; Borje S Andersson
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4.  Synergy of BCL2 and histone deacetylase inhibition against leukemic cells from cutaneous T-cell lymphoma patients.

Authors:  Benoit M Cyrenne; Julia M Lewis; Jason G Weed; Kacie R Carlson; Fatima N Mirza; Francine M Foss; Michael Girardi
Journal:  Blood       Date:  2017-10-02       Impact factor: 22.113

5.  Targeting epigenetic regulators in the treatment of T-cell lymphoma.

Authors:  Nada Ahmed; Andrew L Feldman
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6.  Jak-STAT Inhibition Mediates Romidepsin and Mechlorethamine Synergism in Cutaneous T-Cell Lymphoma.

Authors:  Jose R Cortes; Christina C Patrone; Stuart Aidan Quinn; Yuhan Gu; Marta Sanchez-Martin; Adam Mackey; Anisha J Cooke; Bobby B Shih; Anouchka P Laurent; Megan H Trager; Adolfo A Ferrando; Larisa J Geskin; Teresa Palomero
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7.  R-Loop-Mediated ssDNA Breaks Accumulate Following Short-Term Exposure to the HDAC Inhibitor Romidepsin.

Authors:  Maryam Safari; Thomas Litman; Robert W Robey; Andrés Aguilera; Arup R Chakraborty; William C Reinhold; Agnes Basseville; Lubov Petrukhin; Luigi Scotto; Owen A O'Connor; Yves Pommier; Antonio T Fojo; Susan E Bates
Journal:  Mol Cancer Res       Date:  2021-05-28       Impact factor: 6.333

Review 8.  Stabilizing versus destabilizing the microtubules: a double-edge sword for an effective cancer treatment option?

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Journal:  Anal Cell Pathol (Amst)       Date:  2015-09-21       Impact factor: 2.916

9.  Romidepsin targets multiple survival signaling pathways in malignant T cells.

Authors:  B C Valdez; J E Brammer; Y Li; D Murray; Y Liu; C Hosing; Y Nieto; R E Champlin; B S Andersson
Journal:  Blood Cancer J       Date:  2015-10-16       Impact factor: 11.037

10.  Xenograft and cell culture models of Sézary syndrome reveal cell of origin diversity and subclonal heterogeneity.

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