Andrew Brenner scite author profile

Purpose Naturally occurring tumor suppressor microRNA-34a (miR-34a) downregulates the expression of >30 oncogenes across multiple oncogenic pathways, as well as genes involved in tumor immune evasion, but is lost or under-expressed in many malignancies. This first-inhuman, phase I study assessed the maximum tolerated dose (MTD), safety, pharmacokinetics, and clinical activity of MRX34, a liposomal miR-34a mimic, in patients with advanced solid tumors. Patients and Methods Adult patients with solid tumors refractory to standard treatment were enrolled in a standard 3+3 dose escalation trial. MRX34 was given intravenously twice weekly (BIW) for three weeks in 4-week cycles. Results Forty-seven patients with various solid tumors, including hepatocellular carcinoma (HCC; n=14), were enrolled. Median age was 60 years, median prior therapies was 4 (range, 1–12), and most were Caucasian (68%) and male (57%). Most common adverse events (AEs) included fever (all grade %/G3 %: 64/2), fatigue (57/13), back pain (57/11), nausea (49/2), diarrhea (40/11), anorexia (36/4), and vomiting (34/4). Laboratory abnormalities included lymphopenia (G3 %/G4 %: 23/9), neutropenia (13/11), thrombocytopenia (17/0), increased AST (19/4), hyperglycemia (13/2), and hyponatremia (19/2). Dexamethasone premedication was required to manage infusion-related AEs. The MTD for non-HCC patients was 110 mg/m2, with two patients experiencing dose-limiting toxicities of G3 hypoxia and enteritis at 124 mg/m2. The half-life was >24 h, and Cmax and AUC increased with increasing dose. One patient with HCC achieved a prolonged confirmed PR lasting 48 weeks, and four patients experienced SD lasting ≥4 cycles. Conclusion MRX34 treatment with dexamethasone premedication was associated with acceptable safety and showed evidence of antitumor activity in a subset of patients with refractory advanced solid tumors. The MTD for the BIW schedule was 110 mg/m2 for non-HCC and 93 mg/m2 for HCC patients. Additional dose schedules or MRX34 have been explored to improve tolerability.

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Phase 1 study of MRX34, a liposomal miR-34a mimic, in patients with advanced solid tumours

Hong

et al. 2020

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Background In this first-in-human, Phase 1 study of a microRNA-based cancer therapy, the recommended Phase 2 dose (RP2D) of MRX34, a liposomal mimic of microRNA-34a (miR-34a), was determined and evaluated in patients with advanced solid tumours. Methods Adults with various solid tumours refractory to standard treatments were enrolled in 3 + 3 dose-escalation cohorts and, following RP2D determination, expansion cohorts. MRX34, with oral dexamethasone premedication, was given intravenously daily for 5 days in 3-week cycles. Results Common all-cause adverse events observed in 85 patients enrolled included fever (% all grade/G3: 72/4), chills (53/14), fatigue (51/9), back/neck pain (36/5), nausea (36/1) and dyspnoea (25/4). The RP2D was 70 mg/m2 for hepatocellular carcinoma (HCC) and 93 mg/m2 for non-HCC cancers. Pharmacodynamic results showed delivery of miR-34a to tumours, and dose-dependent modulation of target gene expression in white blood cells. Three patients had PRs and 16 had SD lasting ≥4 cycles (median, 19 weeks, range, 11–55). Conclusion MRX34 treatment with dexamethasone premedication demonstrated a manageable toxicity profile in most patients and some clinical activity. Although the trial was closed early due to serious immune-mediated AEs that resulted in four patient deaths, dose-dependent modulation of relevant target genes provides proof-of-concept for miRNA-based cancer therapy. Clinical trial registration NCT01829971.

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First results on survival from a large Phase 3 clinical trial of an autologous dendritic cell vaccine in newly diagnosed glioblastoma

et al. 2018

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BackgroundStandard therapy for glioblastoma includes surgery, radiotherapy, and temozolomide. This Phase 3 trial evaluates the addition of an autologous tumor lysate-pulsed dendritic cell vaccine (DCVax®-L) to standard therapy for newly diagnosed glioblastoma.MethodsAfter surgery and chemoradiotherapy, patients were randomized (2:1) to receive temozolomide plus DCVax-L (n = 232) or temozolomide and placebo (n = 99). Following recurrence, all patients were allowed to receive DCVax-L, without unblinding. The primary endpoint was progression free survival (PFS); the secondary endpoint was overall survival (OS).ResultsFor the intent-to-treat (ITT) population (n = 331), median OS (mOS) was 23.1 months from surgery. Because of the cross-over trial design, nearly 90% of the ITT population received DCVax-L. For patients with methylated MGMT (n = 131), mOS was 34.7 months from surgery, with a 3-year survival of 46.4%. As of this analysis, 223 patients are ≥ 30 months past their surgery date; 67 of these (30.0%) have lived ≥ 30 months and have a Kaplan-Meier (KM)-derived mOS of 46.5 months. 182 patients are ≥ 36 months past surgery; 44 of these (24.2%) have lived ≥ 36 months and have a KM-derived mOS of 88.2 months. A population of extended survivors (n = 100) with mOS of 40.5 months, not explained by known prognostic factors, will be analyzed further. Only 2.1% of ITT patients (n = 7) had a grade 3 or 4 adverse event that was deemed at least possibly related to the vaccine. Overall adverse events with DCVax were comparable to standard therapy alone.ConclusionsAddition of DCVax-L to standard therapy is feasible and safe in glioblastoma patients, and may extend survival.Trial registration Funded by Northwest Biotherapeutics; Clinicaltrials.gov number: NCT00045968; https://clinicaltrials.gov/ct2/show/NCT00045968?term=NCT00045968&rank=1; initially registered 19 September 2002

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Increased p16 expression with first senescence arrest in human mammary epithelial cells and extended growth capacity with p16 inactivation

1998

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Aberrations a ecting the tumor suppressor gene p16 INK4a have been described for a variety of tumors. In breast cancer, approximately 50% of tumors show low or lack p16 expression. While evidence provided by some studies has implicated a possible role for p16 in normal replicative senescence, other studies have suggested that the Rb, pathway through which p16 functions, may not be involved in senescence control. Previously we observed that all immortal lines derived from normal mammary epithelium which were analysed for p16 displayed inactivation of this gene through distinct mechanisms, supporting p16 inactivation as a possible necessary event in escape from senescence. To further clarify this issue, we have analysed p16 expression in a panel of normal ®nite lifespan human mammary epithelial cells (HMEC) from initial propagation through growth arrest, using media which confer di erent replicative capacity. Approximately 10 ± 25-fold increase in p16 expression was observed for all normal HMEC with initial onset of a senescence phenotype following 15 ± 25 population doublings in culture. These cells also displayed expression of the senescence associated b-galactosidase. Interestingly, HMEC with additional long term replicative capacity (approximately 80 population doublings) arose from these growth arrested cultures, showing lack of p16 expression. This extended growth capacity appears to be associated with a methylation phenomenon since treatment of these cells with the methylation inhibitor 5-aza-2-deoxycytidine resulted in growth arrest concurrent with reacquisition of p16 expression and senescence associated b-galactosidase. Analysis of p21waf1 expression revealed no change in expression during growth in vitro. These results support p16 INK4a as the 9p senescence gene and suggest a role for p16 loss in the escape from initial onset of senescence and in acquisition of an extended life span of human mammary epithelial cells.

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The current state of molecular testing in the treatment of patients with solid tumors, 2019

El‐Deiry

Goldberg

Lenz

et al. 2019

CA A Cancer J Clinicians

219

171

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The world of molecular profiling has undergone revolutionary changes over the last few years as knowledge, technology, and even standard clinical practice have evolved. Broad molecular profiling is now nearly essential for all patients with metastatic solid tumors. New agents have been approved based on molecular testing instead of tumor site of origin. Molecular profiling methodologies have likewise changed such that tests that were performed on patients a few years ago are no longer complete and possibly inaccurate today. As with all rapid change, medical providers can quickly fall behind or struggle to find up‐to‐date sources to ensure he or she provides optimum care. In this review, the authors provide the current state of the art for molecular profiling/precision medicine, practice standards, and a view into the future ahead.

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Andrew Brenner

Phase I study of MRX34, a liposomal miR-34a mimic, administered twice weekly in patients with advanced solid tumors

Phase 1 study of MRX34, a liposomal miR-34a mimic, in patients with advanced solid tumours

First results on survival from a large Phase 3 clinical trial of an autologous dendritic cell vaccine in newly diagnosed glioblastoma

Increased p16 expression with first senescence arrest in human mammary epithelial cells and extended growth capacity with p16 inactivation

The current state of molecular testing in the treatment of patients with solid tumors, 2019

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