Anja J. Stauber scite author profile

Peroxisome proliferators (PPs) are a large class of structurally dissimilar chemicals that have diverse effects in rodents and humans. Most, if not all, of the diverse effects of PPs are mediated by three members of the nuclear receptor superfamily called peroxisome proliferator-activated receptors (PPARs). In this review, we define the molecular mechanisms of PPs, including PPAR binding specificity, alteration of gene expression through binding to DNA response elements, and cross talk with other signaling pathways. We discuss the roles of PPARs in growth promotion in rodent hepatocarcinogenesis and potential therapeutic effects, including suppression of cancer growth and inflammation.

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Clinical development of galunisertib (LY2157299 monohydrate), a small molecule inhibitor of transforming growth factor-beta signaling pathway

Herbertz

Sawyer

Stauber

et al. 2015

DDDT

281

120

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Transforming growth factor-beta (TGF-β) signaling regulates a wide range of biological processes. TGF-β plays an important role in tumorigenesis and contributes to the hallmarks of cancer, including tumor proliferation, invasion and metastasis, inflammation, angiogenesis, and escape of immune surveillance. There are several pharmacological approaches to block TGF-β signaling, such as monoclonal antibodies, vaccines, antisense oligonucleotides, and small molecule inhibitors. Galunisertib (LY2157299 monohydrate) is an oral small molecule inhibitor of the TGF-β receptor I kinase that specifically downregulates the phosphorylation of SMAD2, abrogating activation of the canonical pathway. Furthermore, galunisertib has antitumor activity in tumor-bearing animal models such as breast, colon, lung cancers, and hepatocellular carcinoma. Continuous long-term exposure to galunisertib caused cardiac toxicities in animals requiring adoption of a pharmacokinetic/pharmacodynamic-based dosing strategy to allow further development. The use of such a pharmacokinetic/pharmacodynamic model defined a therapeutic window with an appropriate safety profile that enabled the clinical investigation of galunisertib. These efforts resulted in an intermittent dosing regimen (14 days on/14 days off, on a 28-day cycle) of galunisertib for all ongoing trials. Galunisertib is being investigated either as monotherapy or in combination with standard antitumor regimens (including nivolumab) in patients with cancer with high unmet medical needs such as glioblastoma, pancreatic cancer, and hepatocellular carcinoma. The present review summarizes the past and current experiences with different pharmacological treatments that enabled galunisertib to be investigated in patients.

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Defining a therapeutic window for the novel TGF‐β inhibitor LY2157299 monohydrate based on a pharmacokinetic/pharmacodynamic model

Gueorguieva¹,

Cleverly²,

Stauber

et al. 2014

Brit J Clinical Pharma

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AIMSTo identify prospectively a safe therapeutic window for administration of a novel oral transforming growth factor β (TGF-β) inhibitor, LY2157299 monohydrate, based on a pharmacokinetic/pharmacodynamic (PK/PD) model. Simulations of population plasma exposures and biomarker responses in tumour were performed for future trials of LY2157299 in glioblastoma and other cancer populations. METHODSThe model was updated after completion of each cohort during the first-in-human dose (FHD) study. The flexible design allowed continuous assessment of PK variability by recruiting the required number of patients in each cohort. Based on 30% inhibition of TGF-β RI kinase phosphorylates (pSMAD), biologically effective exposures were anticipated to be reached from 160 mg onwards. The therapeutic window was predicted, based on animal data, to be between 160 and 360 mg. RESULTSNo medically significant safety issues were observed and no dose limiting toxicities were established in this study. Observed plasma exposures (medians 2.43 to 3.7 mg l −1 h, respectively) with doses of 160 mg to 300 mg were within the predicted therapeutic window. Responses, based on the MacDonald criteria, were observed in these patients. CONCLUSIONSA therapeutic window for the clinical investigation of LY2157299 in cancer patients was defined using a targeted PK/PD approach, which integrated translational biomarkers and preclinical toxicity. The study supports using a therapeutic window based on a PK/PD model in early oncology development. WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT• TGF-β signalling has been recognized as an important regulator of tumour growth in advanced cancers for the last 20 years. However, due to severe non-monitorable toxicities in animal studies, no small molecule TGF-β inhibitor has thus far progressed into clinical trials in oncology patients. WHAT THIS STUDY ADDS• Although similar cardiovascular toxicities were observed in animal studies for LY2157299 monohydrate, we applied a pharmacokinetic/pharmacodynamic model to establish prospectively a therapeutic window. Using a therapeutic window approach we identified doses and exposures where we observed responses in glioblastoma patients with this potential first in class treatment. This study supports using a therapeutic window approach based on a pharmacokinetic/ pharmacodynamic model in early oncology development.

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Contribution of Dichloroacetate and Trichloroacetate to Liver Tumor Induction in Mice by Trichloroethylene

Bull

Orner

Cheng

et al. 2002

Toxicology and Applied Pharmacology

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Differences in Phenotype and Cell Replicative Behavior of Hepatic Tumors Induced by Dichloroacetate (DCA) and Trichloroacetate (TCA)

Stauber

Bull

1997

Toxicology and Applied Pharmacology

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Anja J. Stauber

Central Role of Peroxisome Proliferator–Activated Receptors in the Actions of Peroxisome Proliferators

Clinical development of galunisertib (LY2157299 monohydrate), a small molecule inhibitor of transforming growth factor-beta signaling pathway

Defining a therapeutic window for the novel TGF‐β inhibitor LY2157299 monohydrate based on a pharmacokinetic/pharmacodynamic model

Contribution of Dichloroacetate and Trichloroacetate to Liver Tumor Induction in Mice by Trichloroethylene

Differences in Phenotype and Cell Replicative Behavior of Hepatic Tumors Induced by Dichloroacetate (DCA) and Trichloroacetate (TCA)

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