A phase Ib dose escalation study of oral monotherapy with KX2-391 in elderly patients with acute myeloid leukemia.

Poor tolerance to standard therapies and multi-drug resistance complicate treatment of elderly patients with acute myeloid leukemia (AML). It is therefore imperative to explore novel tolerable agents and target alternative pathways. KX2-391 is an oral non-ATP-competitive inhibitor of Src kinase and tubulin polymerization. This multi-center phase Ib open-label safety and activity study involved elderly patients with relapsed or refractory AML, or who declined standard chemotherapy. Twenty-four patients averaging 74 years of age were enrolled. The majority previously received hypomethylating agents. Five doses were tested: 40 mg (n = 1), 80 mg (n = 2), 120 mg (n = 8), 140 mg (n = 12), and 160 mg (n = 1). Seven patients were treated for 12 days or less, nine for 15-29 days, five for 33-58 days, and three for 77-165 days. One patient receiving 120 mg for 165 days had reduced splenomegaly and survived 373 days. Another had no evidence of disease progression for 154 days. One patient receiving 160 mg for 12 days remained treatment-free for about 18 months. Dose-limiting toxicities occurred in eight patients at: 120 mg (transaminitis, hyperbilirubinemia), 140 mg (mucositis, allergic reaction, transaminitis, acute kidney injury), and 160 mg (mucositis). The maximum tolerated dose for KX2-391 was 120 mg once daily. KX2-391 bone marrow concentrations were approximately similar to plasma concentrations. This is the first study to evaluate the safety of KX2-391 in elderly patients with AML. Further studies are warranted, including alternative dosing phase I trials evaluating shorter courses at higher doses and phase II trials. (Clinical Trial Registration:The study was registered at ClinicalTrials.gov: NCT01397799 (July 20, 2011)).

A Primary Care Provider's Guide to Clinical Needs of Women With Spinal Cord Injury.

Women are a growing proportion of individuals with SCI and have distinctive health needs spanning the life course that demand deliberate consideration and clinical expertise. Practitioners caring for women with SCI must incorporate broad medical knowledge of SCI physiology and health promotion for women, including differences in complication rates following SCI, and work collaboratively with rehabilitation, medical, and surgical specialists to optimize function and health for women with SCI. Clinical researchers must continue to perform population-based studies to best characterize the evolving needs of women with SCI and evaluate treatment efficacy and care delivery models to best serve this population.

Targeting Notch enhances the efficacy of ERK inhibitors in BRAF-V600E melanoma.

The discovery of activating BRAF mutations in approximately 50% of melanomas has led to the development of MAPK pathway inhibitors, which have transformed melanoma therapy. However, not all BRAF-V600E melanomas respond to MAPK inhibition. Therefore, it is important to understand why tumors with the same oncogenic driver have variable responses to MAPK inhibitors. Here, we show that concurrent loss of PTEN and activation of the Notch pathway is associated with poor response to the ERK inhibitor SCH772984, and that co-inhibition of Notch and ERK decreased viability in BRAF-V600E melanomas. Additionally, patients with low PTEN and Notch activation had significantly shorter progression free survival when treated with BRAF inhibitors. Our studies provide a rationale to further develop combination strategies with Notch antagonists to maximize the efficacy of MAPK inhibition in melanoma. Our findings should prompt the evaluation of combinations co-targeting MAPK/ERK and Notch as a strategy to improve current therapies and warrant further evaluation of co-occurrence of aberrant PTEN and Notch activation as predictive markers of response to therapy.

BRAF Inhibition Stimulates Melanoma-Associated Macrophages to Drive Tumor Growth.

PURPOSE: To investigate the roles of melanoma-associated macrophages in melanoma resistance to BRAF inhibitors (BRAFi). EXPERIMENTAL DESIGN: An in vitro macrophage and melanoma cell coculture system was used to investigate whether macrophages play a role in melanoma resistance to BRAFi. The effects of macrophages in tumor resistance were examined by proliferation assay, cell death assay, and Western blot analyses. Furthermore, two mouse preclinical models were used to validate whether targeting macrophages can increase the antitumor activity of BRAFi. Finally, the number of macrophages in melanoma tissues was examined by immunohistochemistry. RESULTS: We demonstrate that in BRAF-mutant melanomas, BRAFi paradoxically activate the mitogen-activated protein kinase (MAPK) pathway in macrophages to produce VEGF, which reactivates the MAPK pathway and stimulates cell growth in melanoma cells. Blocking the MAPK pathway or VEGF signaling then reverses macrophage-mediated resistance. Targeting macrophages increases the antitumor activity of BRAFi in mouse and human tumor models. The presence of macrophages in melanomas predicts early relapse after therapy. CONCLUSIONS: Our findings demonstrate that macrophages play a critical role in melanoma resistance to BRAFi, suggesting that targeting macrophages will benefit patients with BRAF-mutant melanoma.

The novel SMAC mimetic birinapant exhibits potent activity against human melanoma cells.

PURPOSE: Inhibitor of apoptosis proteins (IAP) promote cancer cell survival and confer resistance to therapy. We report on the ability of second mitochondria-derived activator of caspases mimetic, birinapant, which acts as antagonist to cIAP1 and cIAP2, to restore the sensitivity to apoptotic stimuli such as TNF-α in melanomas. EXPERIMENTAL DESIGN: Seventeen melanoma cell lines, representing five major genetic subgroups of cutaneous melanoma, were treated with birinapant as a single agent or in combination with TNF-α. Effects on cell viability, target inhibition, and initiation of apoptosis were assessed and findings were validated in 2-dimensional (2D), 3D spheroid, and in vivo xenograft models. RESULTS: When birinapant was combined with TNF-α, strong combination activity, that is, neither compound was effective individually but the combination was highly effective, was observed in 12 of 18 cell lines. This response was conserved in spheroid models, whereas in vivo birinapant inhibited tumor growth without adding TNF-α in in vitro resistant cell lines. Birinapant combined with TNF-α inhibited the growth of a melanoma cell line with acquired resistance to BRAF inhibition to the same extent as in the parental cell line. CONCLUSIONS: Birinapant in combination with TNF-α exhibits a strong antimelanoma effect in vitro. Birinapant as a single agent shows in vivo antitumor activity, even if cells are resistant to single agent therapy in vitro. Birinapant in combination with TNF-α is effective in a melanoma cell line with acquired resistance to BRAF inhibitors.

PLX4032, a potent inhibitor of the B-Raf V600E oncogene, selectively inhibits V600E-positive melanomas.

Targeted intervention of the B-Raf V600E gene product that is prominent in melanoma has been met with modest success. Here, we characterize the pharmacological properties of PLX4032, a next-generation inhibitor with exquisite specificity against the V600E oncogene and striking anti-melanoma activity. PLX4032 induces potent cell cycle arrest, inhibits proliferation, and initiates apoptosis exclusively in V600E-positive cells in a variety of in vitro experimental systems; follow-up xenograft studies demonstrate extreme selectivity and efficacy against melanoma tumors bearing the V600E oncoproduct. The collective data support further exploration of PLX4032 as a candidate drug for patients with metastatic melanoma; accordingly, validation of PLX4032 as a therapeutic tool for patients with melanoma is now underway in advanced human (Phase III) clinical trials.