Literature DB >> 27026198

Phase I Study of an AKT Inhibitor (MK-2206) Combined with Lapatinib in Adult Solid Tumors Followed by Dose Expansion in Advanced HER2+ Breast Cancer.

Kari B Wisinski1, Amye J Tevaarwerk2, Mark E Burkard2, Murtuza Rampurwala2, Jens Eickhoff3, Maria C Bell4, Jill M Kolesar5, Christopher Flynn2, Glenn Liu2.   

Abstract

PURPOSE: Preclinical data support combining AKT inhibitors with HER2-targeted therapies to overcome resistance to treatment. This phase I study combined the investigational AKT inhibitor, MK-2206, with lapatinib to determine the MTD. EXPERIMENTAL
DESIGN: The dose escalation cohort enrolled adults with advanced solid tumors, who received MK-2206 dosed 30 to 60 mg every other day and lapatinib 1,000 to 1,500 mg daily continuously, escalated using a 3+3 design. Cycles were 28 days except cycle 1 (35 days, including an initial 8 days of MK-2206 alone to evaluate pharmacokinetic interactions). The dose expansion cohort enrolled adults with advanced HER2(+) breast cancer.
RESULTS: Twenty-three participants enrolled in the dose escalation cohort. Dose-limiting toxicities were hyponatremia, fatigue, rash, hypocalcemia, and mucositis. Common toxicities included diarrhea, nausea, and rash. The MTD was reached at MK-2206 45 mg orally every other day and lapatinib 1,500 mg orally daily. Two participants maintained stable disease for >4 months, including a colorectal cancer participant with substantial carcinoembryonic antigen decrease. Of 5 participants in the dose expansion cohort, 2 maintained stable disease for >6 months, including one with prior progression on single-agent lapatinib. Plasma MK-2206 concentrations decreased after addition of lapatinib, but in vitro studies indicate lapatinib increases the intracellular levels of MK-2206.
CONCLUSIONS: MK-2206 combined with lapatinib can be tolerated with both drugs above biologically active single-agent doses. Overlapping toxicities result in significant diarrhea and rash, which can be managed medically. Antitumor activity was promising and supports evaluation of AKT inhibitors combined with HER2-targeted therapies. Clin Cancer Res; 22(11); 2659-67. ©2016 AACR. ©2016 American Association for Cancer Research.

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Year:  2016        PMID: 27026198      PMCID: PMC4891227          DOI: 10.1158/1078-0432.CCR-15-2365

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  50 in total

1.  Activated phosphoinositide 3-kinase/AKT signaling confers resistance to trastuzumab but not lapatinib.

Authors:  Neil A O'Brien; Brigid C Browne; Lucy Chow; Yuhua Wang; Charles Ginther; Jane Arboleda; Michael J Duffy; John Crown; Norma O'Donovan; Dennis J Slamon
Journal:  Mol Cancer Ther       Date:  2010-05-25       Impact factor: 6.261

Review 2.  Exploiting the PI3K/AKT pathway for cancer drug discovery.

Authors:  Bryan T Hennessy; Debra L Smith; Prahlad T Ram; Yiling Lu; Gordon B Mills
Journal:  Nat Rev Drug Discov       Date:  2005-12       Impact factor: 84.694

3.  AKT proto-oncogene overexpression is an early event during sporadic colon carcinogenesis.

Authors:  Hemant K Roy; Bola F Olusola; Dahn L Clemens; William J Karolski; Anne Ratashak; Henry T Lynch; Thomas C Smyrk
Journal:  Carcinogenesis       Date:  2002-01       Impact factor: 4.944

4.  Evaluation of immunoreactivity for erbB-2 protein as a marker of poor short term prognosis in gastric cancer.

Authors:  Y Yonemura; I Ninomiya; A Yamaguchi; S Fushida; H Kimura; S Ohoyama; I Miyazaki; Y Endou; M Tanaka; T Sasaki
Journal:  Cancer Res       Date:  1991-02-01       Impact factor: 12.701

5.  Phase I study of continuous MKC-1 in patients with advanced or metastatic solid malignancies using the modified Time-to-Event Continual Reassessment Method (TITE-CRM) dose escalation design.

Authors:  Amye Tevaarwerk; George Wilding; Jens Eickhoff; Rick Chappell; Carolyn Sidor; Jamie Arnott; Howard Bailey; William Schelman; Glenn Liu
Journal:  Invest New Drugs       Date:  2011-01-12       Impact factor: 3.850

6.  Vorinostat in combination with bortezomib in patients with advanced malignancies directly alters transcription of target genes.

Authors:  Jill M Kolesar; Anne M Traynor; Kyle D Holen; Tien Hoang; Songwon Seo; Kyungmann Kim; Dona Alberti; Igor Espinoza-Delgado; John J Wright; George Wilding; Howard H Bailey; William R Schelman
Journal:  Cancer Chemother Pharmacol       Date:  2013-08-01       Impact factor: 3.333

7.  Patient preferences for oral versus intravenous palliative chemotherapy.

Authors:  G Liu; E Franssen; M I Fitch; E Warner
Journal:  J Clin Oncol       Date:  1997-01       Impact factor: 44.544

8.  Frequent mutational activation of the PI3K-AKT pathway in trastuzumab-resistant breast cancer.

Authors:  Sarat Chandarlapaty; Rita A Sakr; Dilip Giri; Sujata Patil; Adriana Heguy; Monica Morrow; Shanu Modi; Larry Norton; Neal Rosen; Clifford Hudis; Tari A King
Journal:  Clin Cancer Res       Date:  2012-10-23       Impact factor: 12.531

9.  PTEN activation contributes to tumor inhibition by trastuzumab, and loss of PTEN predicts trastuzumab resistance in patients.

Authors:  Yoichi Nagata; Keng-Hsueh Lan; Xiaoyan Zhou; Ming Tan; Francisco J Esteva; Aysegul A Sahin; Kristine S Klos; Ping Li; Brett P Monia; Nina T Nguyen; Gabriel N Hortobagyi; Mien-Chie Hung; Dihua Yu
Journal:  Cancer Cell       Date:  2004-08       Impact factor: 31.743

Review 10.  HER2 in gastric cancer: a new prognostic factor and a novel therapeutic target.

Authors:  C Gravalos; A Jimeno
Journal:  Ann Oncol       Date:  2008-04-25       Impact factor: 32.976
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  17 in total

1.  Pre-surgical trial of the AKT inhibitor MK-2206 in patients with operable invasive breast cancer: a New York Cancer Consortium trial.

Authors:  K Kalinsky; J A Sparano; X Zhong; E Andreopoulou; B Taback; L Wiechmann; S M Feldman; P Ananthakrishnan; A Ahmad; S Cremers; A N Sireci; J R Cross; D K Marks; P Mundi; E Connolly; K D Crew; M A Maurer; H Hibshoosh; S Lee; D L Hershman
Journal:  Clin Transl Oncol       Date:  2018-05-07       Impact factor: 3.405

2.  AKT inhibitor MK-2206 sensitizes breast cancer cells to MLN4924, a first-in-class NEDD8-activating enzyme (NAE) inhibitor.

Authors:  Xiaoyu Chen; Danrui Cui; Yanli Bi; Jianfeng Shu; Xiufang Xiong; Yongchao Zhao
Journal:  Cell Cycle       Date:  2018-09-19       Impact factor: 4.534

3.  A phase I study of HER1, HER2 dual kinase inhibitor lapatinib plus the proteasome inhibitor bortezomib in patients with advanced malignancies.

Authors:  Filipa Lynce; Hongkun Wang; Emanuel F Petricoin; Paula R Pohlmann; Brandon Smaglo; Jimmy Hwang; Aiwu R He; Deepa S Subramaniam; John Deeken; John Marshall; Michael J Pishvaian
Journal:  Cancer Chemother Pharmacol       Date:  2019-09-19       Impact factor: 3.333

Review 4.  Maximising the potential of AKT inhibitors as anti-cancer treatments.

Authors:  Jessica S Brown; Udai Banerji
Journal:  Pharmacol Ther       Date:  2016-12-03       Impact factor: 12.310

Review 5.  AKT/PKB Signaling: Navigating the Network.

Authors:  Brendan D Manning; Alex Toker
Journal:  Cell       Date:  2017-04-20       Impact factor: 41.582

Review 6.  Clinical Implementation of Novel Targeted Therapeutics in Advanced Breast Cancer.

Authors:  Mary D Chamberlin; Erica B Bernhardt; Todd W Miller
Journal:  J Cell Biochem       Date:  2016-06-03       Impact factor: 4.429

7.  PRODeepSyn: predicting anticancer synergistic drug combinations by embedding cell lines with protein-protein interaction network.

Authors:  Xiaowen Wang; Hongming Zhu; Yizhi Jiang; Yulong Li; Chen Tang; Xiaohan Chen; Yunjie Li; Qi Liu; Qin Liu
Journal:  Brief Bioinform       Date:  2022-03-10       Impact factor: 11.622

Review 8.  Protein Kinase Targets in Breast Cancer.

Authors:  Marilina García-Aranda; Maximino Redondo
Journal:  Int J Mol Sci       Date:  2017-11-27       Impact factor: 5.923

9.  The LINK-A lncRNA interacts with PtdIns(3,4,5)P3 to hyperactivate AKT and confer resistance to AKT inhibitors.

Authors:  Aifu Lin; Qingsong Hu; Chunlai Li; Zhen Xing; Guolin Ma; Cheng Wang; Jun Li; Yin Ye; Jun Yao; Ke Liang; Shouyu Wang; Peter K Park; Jeffrey R Marks; Yan Zhou; Jianwei Zhou; Mien-Chie Hung; Han Liang; Zhibin Hu; Hongbing Shen; David H Hawke; Leng Han; Yubin Zhou; Chunru Lin; Liuqing Yang
Journal:  Nat Cell Biol       Date:  2017-02-20       Impact factor: 28.824

10.  Radiosensitizing effect of diosmetin on radioresistant lung cancer cells via Akt signaling pathway.

Authors:  Zhijie Xu; Yuanliang Yan; Lingfang Xiao; Shuang Dai; Shuangshuang Zeng; Long Qian; Lin Wang; Xue Yang; Yi Xiao; Zhicheng Gong
Journal:  PLoS One       Date:  2017-04-17       Impact factor: 3.240
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