Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms

We conducted a phase I clinical trial of H3B-8800, an oral small molecule that binds Splicing Factor 3B1 (SF3B1), in patients with MDS, CMML, or AML. Among 84 enrolled patients (42 MDS, 4 CMML and 38 AML), 62 were red blood cell (RBC) transfusion dependent at study entry. Dose escalation cohorts exa...

Descripción completa

Detalles Bibliográficos
Autores principales: Steensma, David P., Wermke, Martin, Klimek, Virginia M., Greenberg, Peter L., Font, Patricia, Komrokji, Rami S., Yang, Jay, Brunner, Andrew M., Carraway, Hetty E., Ades, Lionel, Al-Kali, Aref, Alonso-Dominguez, Juan M., Alfonso-Piérola, Ana, Coombs, Catherine C., Deeg, H. Joachim, Flinn, Ian, Foran, James M., Garcia-Manero, Guillermo, Maris, Michael B., McMasters, Malgorzata, Micol, Jean-Baptiste, De Oteyza, Jaime Perez, Thol, Felicitas, Wang, Eunice S., Watts, Justin M., Taylor, Justin, Stone, Richard, Gourineni, Vikram, Marino, Alyssa J., Yao, Huilan, Destenaves, Benoit, Yuan, Xiaobin, Yu, Kun, Dar, Sara, Ohanjanian, Lernik, Kuida, Keisuke, Xiao, Jianjun, Scholz, Catherine, Gualberto, Antonio, Platzbecker, Uwe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8632688/
https://www.ncbi.nlm.nih.gov/pubmed/34172893
http://dx.doi.org/10.1038/s41375-021-01328-9
_version_ 1784607798033645568
author Steensma, David P.
Wermke, Martin
Klimek, Virginia M.
Greenberg, Peter L.
Font, Patricia
Komrokji, Rami S.
Yang, Jay
Brunner, Andrew M.
Carraway, Hetty E.
Ades, Lionel
Al-Kali, Aref
Alonso-Dominguez, Juan M.
Alfonso-Piérola, Ana
Coombs, Catherine C.
Deeg, H. Joachim
Flinn, Ian
Foran, James M.
Garcia-Manero, Guillermo
Maris, Michael B.
McMasters, Malgorzata
Micol, Jean-Baptiste
De Oteyza, Jaime Perez
Thol, Felicitas
Wang, Eunice S.
Watts, Justin M.
Taylor, Justin
Stone, Richard
Gourineni, Vikram
Marino, Alyssa J.
Yao, Huilan
Destenaves, Benoit
Yuan, Xiaobin
Yu, Kun
Dar, Sara
Ohanjanian, Lernik
Kuida, Keisuke
Xiao, Jianjun
Scholz, Catherine
Gualberto, Antonio
Platzbecker, Uwe
author_facet Steensma, David P.
Wermke, Martin
Klimek, Virginia M.
Greenberg, Peter L.
Font, Patricia
Komrokji, Rami S.
Yang, Jay
Brunner, Andrew M.
Carraway, Hetty E.
Ades, Lionel
Al-Kali, Aref
Alonso-Dominguez, Juan M.
Alfonso-Piérola, Ana
Coombs, Catherine C.
Deeg, H. Joachim
Flinn, Ian
Foran, James M.
Garcia-Manero, Guillermo
Maris, Michael B.
McMasters, Malgorzata
Micol, Jean-Baptiste
De Oteyza, Jaime Perez
Thol, Felicitas
Wang, Eunice S.
Watts, Justin M.
Taylor, Justin
Stone, Richard
Gourineni, Vikram
Marino, Alyssa J.
Yao, Huilan
Destenaves, Benoit
Yuan, Xiaobin
Yu, Kun
Dar, Sara
Ohanjanian, Lernik
Kuida, Keisuke
Xiao, Jianjun
Scholz, Catherine
Gualberto, Antonio
Platzbecker, Uwe
author_sort Steensma, David P.
collection PubMed
description We conducted a phase I clinical trial of H3B-8800, an oral small molecule that binds Splicing Factor 3B1 (SF3B1), in patients with MDS, CMML, or AML. Among 84 enrolled patients (42 MDS, 4 CMML and 38 AML), 62 were red blood cell (RBC) transfusion dependent at study entry. Dose escalation cohorts examined two once-daily dosing regimens: schedule I (5 days on/9 days off, range of doses studied 1–40 mg, n = 65) and schedule II (21 days on/7 days off, 7–20 mg, n = 19); 27 patients received treatment for ≥180 days. The most common treatment-related, treatment-emergent adverse events included diarrhea, nausea, fatigue, and vomiting. No complete or partial responses meeting IWG criteria were observed; however, RBC transfusion free intervals >56 days were observed in nine patients who were transfusion dependent at study entry (15%). Of 15 MDS patients with missense SF3B1 mutations, five experienced RBC transfusion independence (TI). Elevated pre-treatment expression of aberrant transcripts of Transmembrane Protein 14C (TMEM14C), an SF3B1 splicing target encoding a mitochondrial porphyrin transporter, was observed in MDS patients experiencing RBC TI. In summary, H3B-8800 treatment was associated with mostly low-grade TAEs and induced RBC TI in a biomarker-defined subset of MDS.
format Online
Article
Text
id pubmed-8632688
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-86326882021-12-15 Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms Steensma, David P. Wermke, Martin Klimek, Virginia M. Greenberg, Peter L. Font, Patricia Komrokji, Rami S. Yang, Jay Brunner, Andrew M. Carraway, Hetty E. Ades, Lionel Al-Kali, Aref Alonso-Dominguez, Juan M. Alfonso-Piérola, Ana Coombs, Catherine C. Deeg, H. Joachim Flinn, Ian Foran, James M. Garcia-Manero, Guillermo Maris, Michael B. McMasters, Malgorzata Micol, Jean-Baptiste De Oteyza, Jaime Perez Thol, Felicitas Wang, Eunice S. Watts, Justin M. Taylor, Justin Stone, Richard Gourineni, Vikram Marino, Alyssa J. Yao, Huilan Destenaves, Benoit Yuan, Xiaobin Yu, Kun Dar, Sara Ohanjanian, Lernik Kuida, Keisuke Xiao, Jianjun Scholz, Catherine Gualberto, Antonio Platzbecker, Uwe Leukemia Article We conducted a phase I clinical trial of H3B-8800, an oral small molecule that binds Splicing Factor 3B1 (SF3B1), in patients with MDS, CMML, or AML. Among 84 enrolled patients (42 MDS, 4 CMML and 38 AML), 62 were red blood cell (RBC) transfusion dependent at study entry. Dose escalation cohorts examined two once-daily dosing regimens: schedule I (5 days on/9 days off, range of doses studied 1–40 mg, n = 65) and schedule II (21 days on/7 days off, 7–20 mg, n = 19); 27 patients received treatment for ≥180 days. The most common treatment-related, treatment-emergent adverse events included diarrhea, nausea, fatigue, and vomiting. No complete or partial responses meeting IWG criteria were observed; however, RBC transfusion free intervals >56 days were observed in nine patients who were transfusion dependent at study entry (15%). Of 15 MDS patients with missense SF3B1 mutations, five experienced RBC transfusion independence (TI). Elevated pre-treatment expression of aberrant transcripts of Transmembrane Protein 14C (TMEM14C), an SF3B1 splicing target encoding a mitochondrial porphyrin transporter, was observed in MDS patients experiencing RBC TI. In summary, H3B-8800 treatment was associated with mostly low-grade TAEs and induced RBC TI in a biomarker-defined subset of MDS. Nature Publishing Group UK 2021-06-25 2021 /pmc/articles/PMC8632688/ /pubmed/34172893 http://dx.doi.org/10.1038/s41375-021-01328-9 Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Steensma, David P.
Wermke, Martin
Klimek, Virginia M.
Greenberg, Peter L.
Font, Patricia
Komrokji, Rami S.
Yang, Jay
Brunner, Andrew M.
Carraway, Hetty E.
Ades, Lionel
Al-Kali, Aref
Alonso-Dominguez, Juan M.
Alfonso-Piérola, Ana
Coombs, Catherine C.
Deeg, H. Joachim
Flinn, Ian
Foran, James M.
Garcia-Manero, Guillermo
Maris, Michael B.
McMasters, Malgorzata
Micol, Jean-Baptiste
De Oteyza, Jaime Perez
Thol, Felicitas
Wang, Eunice S.
Watts, Justin M.
Taylor, Justin
Stone, Richard
Gourineni, Vikram
Marino, Alyssa J.
Yao, Huilan
Destenaves, Benoit
Yuan, Xiaobin
Yu, Kun
Dar, Sara
Ohanjanian, Lernik
Kuida, Keisuke
Xiao, Jianjun
Scholz, Catherine
Gualberto, Antonio
Platzbecker, Uwe
Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms
title Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms
title_full Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms
title_fullStr Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms
title_full_unstemmed Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms
title_short Phase I First-in-Human Dose Escalation Study of the oral SF3B1 modulator H3B-8800 in myeloid neoplasms
title_sort phase i first-in-human dose escalation study of the oral sf3b1 modulator h3b-8800 in myeloid neoplasms
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8632688/
https://www.ncbi.nlm.nih.gov/pubmed/34172893
http://dx.doi.org/10.1038/s41375-021-01328-9
work_keys_str_mv AT steensmadavidp phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT wermkemartin phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT klimekvirginiam phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT greenbergpeterl phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT fontpatricia phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT komrokjiramis phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT yangjay phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT brunnerandrewm phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT carrawayhettye phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT adeslionel phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT alkaliaref phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT alonsodominguezjuanm phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT alfonsopierolaana phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT coombscatherinec phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT deeghjoachim phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT flinnian phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT foranjamesm phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT garciamaneroguillermo phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT marismichaelb phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT mcmastersmalgorzata phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT micoljeanbaptiste phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT deoteyzajaimeperez phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT tholfelicitas phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT wangeunices phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT wattsjustinm phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT taylorjustin phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT stonerichard phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT gourinenivikram phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT marinoalyssaj phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT yaohuilan phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT destenavesbenoit phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT yuanxiaobin phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT yukun phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT darsara phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT ohanjanianlernik phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT kuidakeisuke phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT xiaojianjun phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT scholzcatherine phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT gualbertoantonio phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms
AT platzbeckeruwe phaseifirstinhumandoseescalationstudyoftheoralsf3b1modulatorh3b8800inmyeloidneoplasms

Ejemplares similares