Your search keyword '"Deepak Sampath"' showing total 309 results

1. Distinct resistance mechanisms arise to allosteric vs. ATP-competitive AKT inhibitors

Author

Kristin M. Zimmerman Savill, Brian B. Lee, Jason Oeh, Jie Lin, Eva Lin, Wei-Jen Chung, Amy Young, Wennie Chen, Monika Miś, Kathryn Mesh, Jeffrey Eastham, Florian Gnad, Zhaoshi Jiang, Eric W. Stawiski, Benjamin Haley, Anneleen Daemen, Xiaojing Wang, Hartmut Koeppen, Zora Modrusan, Scott E. Martin, Deepak Sampath, and Kui Lin

Subjects

Science

Abstract

How resistance to different classes of AKT inhibitors can emerge is unclear. Here, the authors show that resistance to allosteric inhibitors is mainly due to mutation of AKT1 while the ATP competitive resistance is driven by activation of PIM kinases in prostate cancer models.

Published

2022

2. VCAM-1 Density and Tumor Perfusion Predict T-cell Infiltration and Treatment Response in Preclinical Models

Author

Johannes Riegler, Herman Gill, Annie Ogasawara, Maj Hedehus, Vincent Javinal, Jason Oeh, Gregory Z. Ferl, Jan Marik, Simon Williams, Deepak Sampath, Jill Schartner, and Richard A.D. Carano

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Cancer immunotherapies have demonstrated durable responses in a range of different cancers. However, only a subset of patients responds to these therapies. We set out to test if non-invasive imaging of tumor perfusion and vascular inflammation may be able to explain differences in T-cell infiltration in pre-clinical tumor models, relevant for treatment outcomes. Tumor perfusion and vascular cell adhesion molecule (VCAM-1) density were quantified using magnetic resonance imaging (MRI) and correlated with infiltration of adoptively transferred and endogenous T-cells. MRI biomarkers were evaluated for their ability to detect tumor rejection 3 days after T-cell transfer. Baseline levels of these markers were used to assess their ability to predict PD-L1 treatment response. We found correlations between MRI-derived VCAM-1 density and infiltration of endogenous or adoptively transferred T-cells in some preclinical tumor models. Blocking T-cell binding to endothelial cell adhesion molecules (VCAM-1/ICAM) prevented T-cell mediated tumor rejection. Tumor rejection could be detected 3 days after adoptive T-cell transfer prior to tumor volume changes by monitoring the extracellular extravascular volume fraction. Imaging tumor perfusion and VCAM-1 density before treatment initiation was able to predict the response of MC38 tumors to PD-L1 blockade. These results indicate that MRI based assessment of tumor perfusion and VCAM-1 density can inform about the permissibility of the tumor vasculature for T-cell infiltration which may explain some of the observed variance in treatment response for cancer immunotherapies.

Published

2019

3. Venetoclax combines synergistically with FLT3 inhibition to effectively target leukemic cells in FLT3-ITD+ acute myeloid leukemia models

Author

Raghuveer Singh Mali, Qi Zhang, RosaAnna DeFilippis, Antonio Cavazos, Vinitha Mary Kuruvilla, Jayant Raman, Vidhi Mody, Edna F. Choo, Monique Dail, Neil P. Shah, Marina Konopleva, Deepak Sampath, and Elisabeth A. Lasater

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

FLT3 internal tandem duplication (FLT3-ITD) mutations account for ~25% of adult acute myeloid leukemia cases and are associated with poor prognosis. Venetoclax, a selective BCL-2 inhibitor, has limited monotherapy activity in relapsed/refractory acute myeloid leukemia with no responses observed in a small subset of FLT3-ITD+ patients. Further, FLT3-ITD mutations emerged at relapse following venetoclax monotherapy and combination therapy suggesting a potential mechanism of resistance. Therefore, we investigated the convergence of FLT3-ITD signaling on the BCL-2 family proteins and determined combination activity of venetoclax and FLT3-ITD inhibition in preclinical models. In vivo, venetoclax combined with quizartinib, a potent FLT3 inhibitor, showed greater anti-tumor efficacy and prolonged survival compared to monotherapies. In a patient-derived FLT3-ITD+ xenograft model, cotreatment with venetoclax and quizartinib at clinically relevant doses had greater anti-tumor activity in the tumor microenvironment compared to quizartinib or venetoclax alone. Use of selective BCL-2 family inhibitors further identified a role for BCL-2, BCL-XL and MCL-1 in mediating survival in FLT3-ITD+ cells in vivo and highlighted the need to target all three proteins for greatest anti-tumor activity. Assessment of these combinations in vitro revealed synergistic combination activity for quizartinib and venetoclax but not for quizartinib combined with BCL-XL or MCL-1 inhibition. FLT3-ITD inhibition was shown to indirectly target both BCL-XL and MCL-1 through modulation of protein expression, thereby priming cells toward BCL-2 dependence for survival. These data demonstrate that FLT3-ITD inhibition combined with venetoclax has impressive anti-tumor activity in FLT3-ITD+ acute myeloid leukemia preclinical models and provides strong mechanistic rational for clinical studies.

Published

2020

4. Concomitant targeting of BCL2 with venetoclax and MAPK signaling with cobimetinib in acute myeloid leukemia models

Author

Lina Han, Qi Zhang, Monique Dail, Ce Shi, Antonio Cavazos, Vivian R. Ruvolo, Yang Zhao, Eugene Kim, Mohamed Rahmani, Duncan H. Mak, Sha S. Jin, Jun Chen, Darren C. Phillips, Paul Bottecelli Koller, Rodrigo Jacamo, Jared K. Burks, Courtney DiNardo, Naval Daver, Elias Jabbour, Jing Wang, Hagop M. Kantarjian, Michael Andreeff, Steven Grant, Joel D. Leverson, Deepak Sampath, and Marina Konopleva

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

The pathogenesis of acute myeloid leukemia (AML) involves serial acquisition of mutations controlling several cellular processes, requiring combination therapies affecting key downstream survival nodes in order to treat the disease effectively. The BCL2 selective inhibitor venetoclax has potent anti-leukemia efficacy; however, resistance can occur due to its inability to inhibit MCL1, which is stabilized by the MAPK pathway. In this study, we aimed to determine the anti-leukemia efficacy of concomitant targeting of the BCL2 and MAPK pathways by venetoclax and the MEK1/2 inhibitor cobimetinib, respectively. The combination demonstrated synergy in seven of 11 AML cell lines, including those resistant to single agents, and showed growth-inhibitory activity in over 60% of primary samples from patients with diverse genetic alterations. The combination markedly impaired leukemia progenitor functions, while maintaining normal progenitors. Mass cytometry data revealed that BCL2 protein is enriched in leukemia stem/progenitor cells, primarily in venetoclax-sensitive samples, and that cobimetinib suppressed cytokine-induced pERK and pS6 signaling pathways. Through proteomic profiling studies, we identified several pathways inhibited downstream of MAPK that contribute to the synergy of the combination. In OCI-AML3 cells, the combination downregulated MCL1 protein levels and disrupted both BCL2:BIM and MCL1:BIM complexes, releasing BIM to induce cell death. RNA sequencing identified several enriched pathways, including MYC, mTORC1, and p53 in cells sensitive to the drug combination. In vivo, the venetoclax-cobimetinib combination reduced leukemia burden in xenograft models using genetically engineered OCI-AML3 and MOLM13 cells. Our data thus provide a rationale for combinatorial blockade of MEK and BCL2 pathways in AML.

Published

2020

5. The Kinase Activity of Hematopoietic Progenitor Kinase 1 Is Essential for the Regulation of T Cell Function

Author

Sairy Hernandez, Jing Qing, Rebecca Hong Thibodeau, Xiangnan Du, Summer Park, Hyang-Mi Lee, Min Xu, Soyoung Oh, Armando Navarro, Meron Roose-Girma, Robert J. Newman, Soren Warming, Michelle Nannini, Deepak Sampath, Jeong M. Kim, Jane L. Grogan, and Ira Mellman

Subjects

Biology (General), QH301-705.5

Abstract

Summary: We examined hematopoietic protein kinase 1 (HPK1), whose reliance on scaffold versus kinase functions for negative immune cell regulation is poorly understood and critical to its assessment as a viable drug target. We identify kinase-dependent roles for HPK1 in CD8 T cells that restrict their anti-viral and anti-tumor responses by using HPK1 kinase-dead (HPK1.kd) knockin mice. Loss of HPK1 kinase function enhanced T cell receptor signaling and cytokine secretion in a T-cell-intrinsic manner. In response to chronic lymphocytic choriomeningitis virus (LCMV) infection or tumor challenge, viral clearance and tumor growth inhibition were enhanced in HPK1.kd mice, accompanied by an increase in effector CD8 T cell function. Co-blockade of PD-L1 further enhanced T effector cell function, resulting in superior anti-viral and anti-tumor immunity over single target blockade. These results identify the importance of HPK1 kinase activity in the negative regulation of CD8 effector functions, implicating its potential as a cancer immunotherapy target. : HPK1 is implicated in several important steps that limit T cell responsiveness, but the mechanism is poorly characterized. Hernandez et al. demonstrate that HPK1’s kinase activity is essential for attenuating T cell function. Loss of HPK1 kinase activity enhanced antitumoral responses, proving to be an attractive target for cancer immunotherapy. Keywords: HPK1, hematopoietic progenitor kinase 1, cancer immunotherapy

Published

2018

6. Monitoring and Targeting Anti-VEGF Induced Hypoxia within the Viable Tumor by 19F–MRI and Multispectral Analysis

Author

Yunzhou Shi, Jason Oeh, Anna Hitz, Maj Hedehus, Jeffrey Eastham-Anderson, Franklin V. Peale, Jr., Patricia Hamilton, Thomas O'Brien, Deepak Sampath, and Richard A.D. Carano

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The effect of anti-angiogenic agents on tumor oxygenation has been in question for a number of years, where both increases and decreases in tumor pO2 have been observed. This dichotomy in results may be explained by the role of vessel normalization in the response of tumors to anti-angiogenic therapy, where anti-angiogenic therapies may initially improve both the structure and the function of tumor vessels, but more sustained or potent anti-angiogenic treatments will produce an anti-vascular response, producing a more hypoxic environment. The first goal of this study was to employ multispectral (MS) 19F–MRI to noninvasively quantify viable tumor pO2 and evaluate the ability of a high dose of an antibody to vascular endothelial growth factor (VEGF) to produce a strong and prolonged anti-vascular response that results in significant tumor hypoxia. The second goal of this study was to target the anti-VEGF induced hypoxic tumor micro-environment with an agent, tirapazamine (TPZ), which has been designed to target hypoxic regions of tumors. These goals have been successfully met, where an antibody that blocks both murine and human VEGF-A (B20.4.1.1) was found by MS 19F–MRI to produce a strong anti-vascular response and reduce viable tumor pO2 in an HM-7 xenograft model. TPZ was then employed to target the anti-VEGF-induced hypoxic region. The combination of anti-VEGF and TPZ strongly suppressed HM-7 tumor growth and was superior to control and both monotherapies. This study provides evidence that clinical trials combining anti-vascular agents with hypoxia-activated prodrugs should be considered to improved efficacy in cancer patients.

Published

2017

7. Systems analysis of apoptotic priming in ovarian cancer identifies vulnerabilities and predictors of drug response

Author

Ioannis K. Zervantonakis, Claudia Iavarone, Hsing-Yu Chen, Laura M. Selfors, Sangeetha Palakurthi, Joyce F. Liu, Ronny Drapkin, Ursula Matulonis, Joel D. Leverson, Deepak Sampath, Gordon B. Mills, and Joan S. Brugge

Subjects

Science

Abstract

High-grade serous ovarian cancers (HGS-OvCa) frequently develop chemotherapy resistance. Here, the authors through a systematic analysis of proteomic and drug response data of 14 HGS-OvCa PDXs demonstrate that targeting apoptosis regulators can improve response of these tumors to inhibitors of the PI3K/mTOR pathway.

Published

2017

8. Convergent genetic aberrations in murine and human T lineage acute lymphoblastic leukemias.

Author

Benjamin J Huang, Anica M Wandler, Lauren K Meyer, Monique Dail, Anneleen Daemen, Deepak Sampath, Qing Li, Xinyue Wang, Jasmine C Wong, Joy Nakitandwe, James R Downing, Jinghui Zhang, Barry S Taylor, and Kevin Shannon

Subjects

Genetics, QH426-470

Abstract

The lack of predictive preclinical models is a fundamental barrier to translating knowledge about the molecular pathogenesis of cancer into improved therapies. Insertional mutagenesis (IM) in mice is a robust strategy for generating malignancies that recapitulate the extensive inter- and intra-tumoral genetic heterogeneity found in advanced human cancers. While the central role of "driver" viral insertions in IM models that aberrantly increase the expression of proto-oncogenes or disrupt tumor suppressors has been appreciated for many years, the contributions of cooperating somatic mutations and large chromosomal alterations to tumorigenesis are largely unknown. Integrated genomic studies of T lineage acute lymphoblastic leukemias (T-ALLs) generated by IM in wild-type (WT) and Kras mutant mice reveal frequent point mutations and other recurrent non-insertional genetic alterations that also occur in human T-ALL. These somatic mutations are sensitive and specific markers for defining clonal dynamics and identifying candidate resistance mechanisms in leukemias that relapse after an initial therapeutic response. Primary cancers initiated by IM and resistant clones that emerge during in vivo treatment close key gaps in existing preclinical models, and are robust platforms for investigating the efficacy of new therapies and for elucidating how drug exposure shapes tumor evolution and patterns of resistance.

Published

2019

9. Correction: The selective estrogen receptor downregulator GDC-0810 is efficacious in diverse models of ER+ breast cancer

Author

James D Joseph, Beatrice Darimont, Wei Zhou, Alfonso Arrazate, Amy Young, Ellen Ingalla, Kimberly Walter, Robert A Blake, Jim Nonomiya, Zhengyu Guan, Lorna Kategaya, Steven P Govek, Andiliy G Lai, Mehmet Kahraman, Dan Brigham, John Sensintaffar, Nhin Lu, Gang Shao, Jing Qian, Kate Grillot, Michael Moon, Rene Prudente, Eric Bischoff, Kyoung-Jin Lee, Celine Bonnefous, Karensa L Douglas, Jackaline D Julien, Johnny Y Nagasawa, Anna Aparicio, Josh Kaufman, Benjamin Haley, Jennifer M Giltnane, Ingrid E Wertz, Mark R Lackner, Michelle A Nannini, Deepak Sampath, Luis Schwarz, Henry Charles Manning, Mohammed Noor Tantawy, Carlos L Arteaga, Richard A Heyman, Peter J Rix, Lori Friedman, Nicholas D Smith, Ciara Metcalfe, and Jeffrey H Hager

Subjects

Medicine, Science, Biology (General), QH301-705.5

Published

2019

10. Supplementation of Nicotinic Acid with NAMPT Inhibitors Results in Loss of In Vivo Efficacy in NAPRT1-Deficient Tumor Models

Author

Thomas O'Brien, Jason Oeh, Yang Xiao, Xiaorong Liang, Alexander Vanderbilt, Ann Qin, Lulu Yang, Leslie B. Lee, Justin Ly, Ely Cosino, Jennifer A. LaCap, Annie Ogasawara, Simon Williams, Michelle Nannini, Bianca M. Liederer, Peter Jackson, Peter S. Dragovich, and Deepak Sampath

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Nicotinamide adenine dinucleotide (NAD) is a metabolite essential for cell survival and generated de novo from tryptophan or recycled from nicotinamide (NAM) through the nicotinamide phosphoribosyltransferase (NAMPT)-dependent salvage pathway. Alternatively, nicotinic acid (NA) is metabolized to NAD through the nicotinic acid phosphoribosyltransferase domain containing 1 (NAPRT1)-dependent salvage pathway. Tumor cells are more reliant on the NAMPT salvage pathway making this enzyme an attractive therapeutic target. Moreover, the therapeutic index of NAMPT inhibitors may be increased by in NAPRT-deficient tumors by NA supplementation as normal tissues may regenerate NAD through NAPRT1. To confirm the latter, we tested novel NAMPT inhibitors, GNE-617 and GNE-618, in cell culture- and patient-derived tumor models. While NA did not protect NAPRT1-deficient tumor cell lines from NAMPT inhibition in vitro, it rescued efficacy of GNE-617 and GNE-618 in cell culture- and patient-derived tumor xenografts in vivo. NA co-treatment increased NAD and NAM levels in NAPRT1-deficient tumors to levels that sustained growth in vivo. Furthermore, NAM co-administration with GNE-617 led to increased tumor NAD levels and rescued in vivo efficacy as well. Importantly, tumor xenografts remained NAPRT1-deficient in the presence of NA, indicating that the NAPRT1-dependent pathway is not reactivated. Protection of NAPRT1-deficient tumors in vivo may be due to increased circulating levels of metabolites generated by mouse liver, in response to NA or through competitive reactivation of NAMPT by NAM. Our results have important implications for the development of NAMPT inhibitors when considering NA co-treatment as a rescue strategy.

Published

2013

11. Mapping In Vivo Tumor Oxygenation within Viable Tumor by 19F-MRI and Multispectral Analysis

Author

Yunzhou Shi, Jason Oeh, Jeffrey Eastham-Anderson, Sharon Yee, David Finkle, Franklin V. Peale, Jr, Jed Ross, Maj Hedehus, Nicholas van Bruggen, Rayna Venook, Sarajane Ross, Deepak Sampath, and Richard A.D. Carano

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Quantifying oxygenation in viable tumor remains a major obstacle toward a better understanding of the tumor microenvironment and improving treatment strategies. Current techniques are often complicated by tumor heterogeneity. Herein, a novel in vivo approach that combines 19F magnetic resonance imaging (19F-MRI)R1 mapping with diffusionbased multispectral (MS) analysis is introduced. This approach restricts the partial pressure of oxygen (pO2) measurements to viable tumor, the tissue of therapeutic interest. The technique exhibited sufficient sensitivity to detect a breathing gas challenge in a xenograft tumor model, and the hypoxic region measured by MS 19F-MRI was strongly correlated with histologic estimates of hypoxia. This approach was then applied to address the effects of antivascular agents on tumor oxygenation, which is a research question that is still under debate. The technique was used to monitor longitudinal pO2 changes in response to an antibody to vascular endothelial growth factor (B20.4.1.1) and a selective dual phosphoinositide 3-kinase/mammalian target of rapamycin inhibitor (GDC-0980). GDC-0980 reduced viable tumor pO2 during a 3-day treatment period, and a significant reduction was also produced by B20.4.1.1. Overall, this method provides an unprecedented view of viable tumor pO2 and contributes to a greater understanding of the effects of antivascular therapies on the tumor's microenvironment.

Published

2013

12. Dependence of Tumor Cell Lines and Patient-Derived Tumors on the NAD Salvage Pathway Renders Them Sensitive to NAMPT Inhibition with GNE-618

Author

Yang Xiao, Kristi Elkins, Jenni K Durieux, Leslie Lee, Jason Oeh, Lulu X Yang, Xiaorong Liang, Chris DelNagro, Jarrod Tremayne, Mandy Kwong, Bianca M Liederer, Peter K Jackson, Lisa D Belmont, Deepak Sampath, and Thomas O'Brien

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Nicotinamide adenine dinucleotide (NAD) is a critical metabolite that is required for a range of cellular reactions. A key enzyme in the NAD salvage pathway is nicotinamide phosphoribosyl transferase (NAMPT), and here, we describe GNE-618, an NAMPT inhibitor that depletes NAD and induces cell death in vitro and in vivo. While cells proficient for nicotinic acid phosphoribosyl transferase (NAPRT1) can be protected from NAMPT inhibition as they convert nicotinic acid (NA) to NAD independent of the salvage pathway, this protection only occurs if NA is added before NAD depletion. We also demonstrate that tumor cells are unable to generate NAD by de novo synthesis as they lack expression of key enzymes in this pathway, thus providing a mechanistic rationale for the reliance of tumor cells on the NAD salvage pathway. Identifying tumors that are sensitive to NAMPT inhibition is one potential way to enhance the therapeutic effectiveness of an NAMPT inhibitor, and here, we show that NAMPT, but not NAPRT1, mRNA and protein levels inversely correlate with sensitivity to GNE-618 across a panel of 53 non-small cell lung carcinoma cell lines. Finally, we demonstrate that GNE-618 reduced tumor growth in a patient-derived model, which is thought to more closely represent heterogeneous primary patient tumors. Thus, we show that dependence of tumor cells on the NAD salvage pathway renders them sensitive to GNE-618 in vitro and in vivo, and our data support further evaluation of the use of NAMPT mRNA and protein levels as predictors of overall sensitivity.

Published

2013

13. Multimodal Microvascular Imaging Reveals that Selective Inhibition of Class I PI3K Is Sufficient to Induce an Antivascular Response

Author

Deepak Sampath, Jason Oeh, Shelby K. Wyatt, Tim C. Cao, Hartmut Koeppen, Jeffrey Eastham-Anderson, Liliane Robillard, Calvin C.K. Ho, Jed Ross, Guanglei Zhuang, Hani Bou Reslan, Philip Vitorino, Kai H. Barck, Sharon E. Ungersma, Jean Michel Vernes, Maresa Caunt, Nick Van Bruggen, Weilan Ye, Ulka Vijapurkar, Yu-Ju Gloria Meng, Napoleone Ferrara, Lori S. Friedman, and Richard A.D. Carano

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The phosphatidylinositol 3-kinase (PI3K) pathway is a central mediator of vascular endothelial growth factor (VEGF)-driven angiogenesis. The discovery of small molecule inhibitors that selectively target PI3K or PI3K and mammalian target of rapamycin (mTOR) provides an opportunity to pharmacologically determine the contribution of these key signaling nodes in VEGF-A-driven tumor angiogenesis in vivo. This study used an array of microvascular imaging techniques to monitor the antivascular effects of selective class I PI3K, mTOR, or dual PI3K/ mTOR inhibitors in colorectal and prostate cancer xenograft models. Micro-computed tomography (micro-CT) angiography, dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI), vessel size index (VSI) MRI, and DCE ultrasound (DCE-U/S) were employed to quantitatively evaluate the vascular (structural and physiological) response to these inhibitors. GDC-0980, a dual PI3K/mTOR inhibitor, was found to reduce micro-CT angiography vascular density, while VSI MRI demonstrated a significant reduction in vessel density and an increase in mean vessel size, consistent with a loss of small functional vessels and a substantial antivascular response. DCE-MRI showed that GDC-0980 produces a strong functional response by decreasing the vascular permeability/perfusion-related parameter, Ktrans. Interestingly, comparable antivascular effects were observed for both GDC-980 and GNE-490 (a selective class I PI3K inhibitor). In addition, mTOR-selective inhibitors did not affect vascular density, suggesting that PI3K inhibition is sufficient to generate structural changes, characteristic of a robust antivascular response. This study supports the use of noninvasive microvascular imaging techniques (DCE-MRI, VSI MRI, DCE-U/S) as pharmacodynamic assays to quantitatively measure the activity of PI3K and dual PI3K/mTOR inhibitors in vivo.

Published

2013

14. The selective estrogen receptor downregulator GDC-0810 is efficacious in diverse models of ER+ breast cancer

Author

James D Joseph, Beatrice Darimont, Wei Zhou, Alfonso Arrazate, Amy Young, Ellen Ingalla, Kimberly Walter, Robert A Blake, Jim Nonomiya, Zhengyu Guan, Lorna Kategaya, Steven P Govek, Andiliy G Lai, Mehmet Kahraman, Dan Brigham, John Sensintaffar, Nhin Lu, Gang Shao, Jing Qian, Kate Grillot, Michael Moon, Rene Prudente, Eric Bischoff, Kyoung-Jin Lee, Celine Bonnefous, Karensa L Douglas, Jackaline D Julien, Johnny Y Nagasawa, Anna Aparicio, Josh Kaufman, Benjamin Haley, Jennifer M Giltnane, Ingrid E Wertz, Mark R Lackner, Michelle A Nannini, Deepak Sampath, Luis Schwarz, Henry Charles Manning, Mohammed Noor Tantawy, Carlos L Arteaga, Richard A Heyman, Peter J Rix, Lori Friedman, Nicholas D Smith, Ciara Metcalfe, and Jeffrey H Hager

Subjects

breast cancer, estrogen receptor, SERD, GDC-0810, Medicine, Science, Biology (General), QH301-705.5

Abstract

ER-targeted therapeutics provide valuable treatment options for patients with ER+ breast cancer, however, current relapse and mortality rates emphasize the need for improved therapeutic strategies. The recent discovery of prevalent ESR1 mutations in relapsed tumors underscores a sustained reliance of advanced tumors on ERα signaling, and provides a strong rationale for continued targeting of ERα. Here we describe GDC-0810, a novel, non-steroidal, orally bioavailable selective ER downregulator (SERD), which was identified by prospectively optimizing ERα degradation, antagonism and pharmacokinetic properties. GDC-0810 induces a distinct ERα conformation, relative to that induced by currently approved therapeutics, suggesting a unique mechanism of action. GDC-0810 has robust in vitro and in vivo activity against a variety of human breast cancer cell lines and patient derived xenografts, including a tamoxifen-resistant model and those that harbor ERα mutations. GDC-0810 is currently being evaluated in Phase II clinical studies in women with ER+ breast cancer.

Published

2016

15. Mystery of Sciatica Resolved - A Rare Case Report

Author

JAYANTH KUMAR BANGALORE CHIKKANNA, SURENDRA GOPAL, and DEEPAK SAMPATH

Subjects

schwannomas, sciatic neuroma, Medicine

Abstract

Schwannomas are common, benign, slow growing tumours of peripheral nerve sheath arising from the schwann cells of the neuroectoderm. They do not transverse the nerve but remain within the sheath on top of the nerve. They rarely present in the sciatic nerve. Sciatic schwannomas may mimic symptoms of herniated disc, usually with radiation of pain to buttocks and thigh region with inability to walk for long distances and sometimes may present with claudication. In the absence of low back pain and with a normal Lumbo-Sacral MRI study, causes intrinsic to sciatic nerve needs to be thought off, which often delays the diagnosis. Rarity in our casepatient presented with tingling sensation and inability to squat on hard surface for more than 10 minutes with a normal x-ray and MRI study of lumbosacral spine.

Published

2016

16. Popliteal Artery Thrombosis after Total Knee Replacement: An Unusual Complication

Author

Jayanth Kumar Bangalora Chikkanna, Deepak Sampath, Varaprasad Reddy, and Vishnu Motkuru

Subjects

limb ischemia, popliteal artery occlusion/thrombosis, total knee arthroplasty, Medicine

Published

2015

17. A Rare Combination of Avulsion Fractures Around the Knee –A Case Report

Author

Deepak Sampath, Hanumantha Reddy, Chirag Thonse, and Jayanth Kumar Bangalore Chikkanna

Subjects

bilateral patella fracture, segond fracture, tibial spine avulsion, Medicine

Abstract

Patella fractures, tibial spine avulsion and Segond fractures are mainly due to trauma to the knee which may be direct or indirect injuries. While each entity is well documented when occurring in isolation, but bilateral inferior pole patella fracture, tibial spine avulsion in the right knee and bilateral segond fracture in a same patient is a rare occurrence. We report a case of 24-year-old male with such an injury. The diagnosis was confirmed by X-ray, CT scan and MRI imaging of right knee. Then the patient was treated with arthroscopic anterior cruciate ligament (ACL) avulsion fixation with pull through technique and suture disc; bilateral inferior pole patella was treated conservatively with knee brace, segond fracture was treated conservatively similarly. To the best of our knowledge, this is the rare case in the medical literature with all these injuries occurring simultaneously.

Published

2015

18. Structural basis for resistance to diverse classes of NAMPT inhibitors.

Author

Weiru Wang, Kristi Elkins, Angela Oh, Yen-Ching Ho, Jiansheng Wu, Hong Li, Yang Xiao, Mandy Kwong, Mary Coons, Bobby Brillantes, Eric Cheng, Lisa Crocker, Peter S Dragovich, Deepak Sampath, Xiaozhang Zheng, Kenneth W Bair, Thomas O'Brien, and Lisa D Belmont

Subjects

Medicine, Science

Abstract

Inhibiting NAD biosynthesis by blocking the function of nicotinamide phosphoribosyl transferase (NAMPT) is an attractive therapeutic strategy for targeting tumor metabolism. However, the development of drug resistance commonly limits the efficacy of cancer therapeutics. This study identifies mutations in NAMPT that confer resistance to a novel NAMPT inhibitor, GNE-618, in cell culture and in vivo, thus demonstrating that the cytotoxicity of GNE-618 is on target. We determine the crystal structures of six NAMPT mutants in the apo form and in complex with various inhibitors and use cellular, biochemical and structural data to elucidate two resistance mechanisms. One is the surprising finding of allosteric modulation by mutation of residue Ser165, resulting in unwinding of an α-helix that binds the NAMPT substrate 5-phosphoribosyl-1-pyrophosphate (PRPP). The other mechanism is orthosteric blocking of inhibitor binding by mutations of Gly217. Furthermore, by evaluating a panel of diverse small molecule inhibitors, we unravel inhibitor structure activity relationships on the mutant enzymes. These results provide valuable insights into the design of next generation NAMPT inhibitors that offer improved therapeutic potential by evading certain mechanisms of resistance.

Published

2014

19. Supplementary Figure 1 from The Bcl-2/Bcl-XL/Bcl-w Inhibitor, Navitoclax, Enhances the Activity of Chemotherapeutic Agents In Vitro and In Vivo

Author

Steven W. Elmore, Chris Tse, Joel D. Leverson, Deepak Sampath, Heather Maecker, Saul H. Rosenberg, Scott L. Ackler, Haichao Zhang, Stephen K. Tahir, Alexander R. Shoemaker, Yu Shen, Morey Smith, Xiaoyu Lin, Paul Nimmer, Michael J. Mitten, Bernard Liu, Xiaoli Huang, Vivek Abraham, Sha Jin, and Jun Chen

Abstract

PDF file - 78K

Published

2023

20. Supplementary Table 1 from Bcl-2/Bcl-xL Inhibition Increases the Efficacy of MEK Inhibition Alone and in Combination with PI3 Kinase Inhibition in Lung and Pancreatic Tumor Models

Author

Lisa D. Belmont, Wayne J. Fairbrother, Jeffrey Settleman, Deepak Sampath, Peng Yue, Pierre Pascal Savy, Karen Williams, Stephen Price, Leslie B. Lee, Rebecca Hong, Michelle A. Nannini, Maureen Wong, and Nguyen Tan

Abstract

PDF file - 39K, Summary of Combination Matrices for Navitoclax and G-963 in Pancreatic Cancer Cell Lines. The data reflect the average of three independent runs performed in quadruplicate

Published

2023

21. Figures S1-S4, Tables S1-S2 from An Anti-GDNF Family Receptor Alpha 1 (GFRA1) Antibody–Drug Conjugate for the Treatment of Hormone Receptor–Positive Breast Cancer

Author

Jagath R. Junutula, Paul Polakis, Richard H. Scheller, Mark S. Dennis, Deepak Sampath, Jo-Anne Hongo, Helga Raab, Katherine R. Kozak, Aimee Fourie-O'Donohue, Ron Firestein, Robert Piskol, Eric Cheng, Mary Ann T. Go, Kirsten A. Poon, Fiona Zhong, Rachana Ohri, Coenraad Kuijl, Dongwei Li, Melissa M. Schutten, Meredith Hazen, Yvonne Chen, Lisa M. Crocker, and Sunil Bhakta

Abstract

Figure S1. Validation of anti-GFRA1 antibodies (R&D systems and GNE-8H6) for the use of Immunohistochemistry (IHC) analysis; Figure S2. ELISA analyses to test binding specificity of anti-GFRA1 antibodies to GFRA1 (A) and GFRA2 (B) extra cellular domain-Fc fusion proteins; Figure S3. Pharmacokinetics of anti-GFRA1 ADCs in tumor xenograft models; Figure S4. FACS of anti-GFRA1, hu-6D3.v5 (A) and hu-7C9 (B) antibody titration on HEK293-overexpressing human, cynomolgus monkey, rat and mouse GFRA1 cells showing similar binding; Table S1. Affinity characterization of anti-GFRA1 IgG antibodies on Immobilized hu- GFRA1Fc ligand; Table S2. Bioanalytical characterization of anti-GFRA1 ADCs.

Published

2023

22. Supplementary Figure 7 from Neutralization of BCL-2/XL Enhances the Cytotoxicity of T-DM1 In Vivo

Author

Joan S. Brugge, Deborah A. Dillon, Roderick T. Bronson, Joel D. Leverson, Deepak Sampath, Dennis J. Slamon, Neil O'Brien, Benjamin Y. Tan, Krishan Taneja, Aleksandr Vagodny, and Jason J. Zoeller

Abstract

HER2 levels post-treatment.

Published

2023

23. Table S4 from Machine-Learning and Chemicogenomics Approach Defines and Predicts Cross-Talk of Hippo and MAPK Pathways

Author

Anwesha Dey, Matthew T. Chang, Shiva Malek, Christiaan Klijn, Jennie R. Lill, Zora Modrusan, Victoria C. Pham, Deepak Sampath, Jennifer A. Lacap, Robert Piskol, Scott E. Martin, Mamie Yu, Eva Lin, Christopher M. Rose, Jason Li, Ho-June Lee, Thijs J. Hagenbeek, and Trang H. Pham

Abstract

Gene signature correlations with clusters 1-4

Published

2023

24. Figure S6 from RTK-Dependent Inducible Degradation of Mutant PI3Kα Drives GDC-0077 (Inavolisib) Efficacy

Author

Lori S. Friedman, Anwesha Dey, Donald S. Kirkpatrick, Steven T. Staben, Shiva Malek, Alan G. Olivero, Timothy P. Heffron, Laurent Salphati, Gail D. Lewis Phillips, Emile G. Plise, Jonathan Cheong, Jeffrey J. Wallin, Jane Guan, Nicholas Endres, Stephen Schmidt, Eric Stawiski, William F. Forrest, Lilian Phu, Rebecca Hong, Michelle A. Nannini, Deepak Sampath, Mark Merchant, Jason Oeh, Marc Hafner, Emily J. Hanan, Kyle A. Edgar, and Kyung W. Song

Abstract

RTK activity plays a key role in regulating p110a degradation

Published

2023

25. Supplementary Table 3 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

BCL2, BCL2L1 and MCL1 mRNA in CD138 primary MM patient samples and sensitivity to veneteclax ex vivo

Published

2023

26. Supplementary Figure S3 from Combined MEK and BCL-2/XL Inhibition Is Effective in High-Grade Serous Ovarian Cancer Patient–Derived Xenograft Models and BIM Levels Are Predictive of Responsiveness

Author

Joan S. Brugge, Gordon B. Mills, Deepak Sampath, Joel D. Leverson, Victor E. Velculescu, Dorothy Hallberg, Ursula A. Matulonis, Ronny Drapkin, Joyce F. Liu, Sangeetha Palakurthi, Laura M. Selfors, Ioannis K. Zervantonakis, and Claudia Iavarone

Abstract

Supplementary Figure S3 describes the effects of distinct MEK inhibitors in combination with BCL-2/XL inhibition and contribution of BCL-2 vs. BCL-XL to apoptotic vulnerability of HGSOC PDX models

Published

2023

27. Data from RTK-Dependent Inducible Degradation of Mutant PI3Kα Drives GDC-0077 (Inavolisib) Efficacy

Author

Lori S. Friedman, Anwesha Dey, Donald S. Kirkpatrick, Steven T. Staben, Shiva Malek, Alan G. Olivero, Timothy P. Heffron, Laurent Salphati, Gail D. Lewis Phillips, Emile G. Plise, Jonathan Cheong, Jeffrey J. Wallin, Jane Guan, Nicholas Endres, Stephen Schmidt, Eric Stawiski, William F. Forrest, Lilian Phu, Rebecca Hong, Michelle A. Nannini, Deepak Sampath, Mark Merchant, Jason Oeh, Marc Hafner, Emily J. Hanan, Kyle A. Edgar, and Kyung W. Song

Abstract

PIK3CA is one of the most frequently mutated oncogenes; the p110a protein it encodes plays a central role in tumor cell proliferation. Small-molecule inhibitors targeting the PI3K p110a catalytic subunit have entered clinical trials, with early-phase GDC-0077 studies showing antitumor activity and a manageable safety profile in patients with PIK3CA-mutant breast cancer. However, preclinical studies have shown that PI3K pathway inhibition releases negative feedback and activates receptor tyrosine kinase signaling, reengaging the pathway and attenuating drug activity. Here we discover that GDC-0077 and taselisib more potently inhibit mutant PI3K pathway signaling and cell viability through unique HER2-dependent mutant p110a degradation. Both are more effective than other PI3K inhibitors at maintaining prolonged pathway suppression. This study establishes a new strategy for identifying inhibitors that specifically target mutant tumors by selective degradation of the mutant oncoprotein and provide a strong rationale for pursuing PI3Kα degraders in patients with HER2-positive breast cancer.Significance:The PI3K inhibitors GDC-0077 and taselisib have a unique mechanism of action; both inhibitors lead to degradation of mutant p110a protein. The inhibitors that have the ability to trigger specific degradation of mutant p110a without significant change in wild-type p110a protein may result in improved therapeutic index in PIK3CA-mutant tumors.See related commentary by Vanhaesebroeck et al., p. 20.This article is highlighted in the In This Issue feature, p. 1

Published

2023

28. Legends for Tables S1 to S3 and Figures S1 to S5 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Legends for Tables S1 to S3 and Figures S1 to S5

Published

2023

29. Figure S4 from Machine-Learning and Chemicogenomics Approach Defines and Predicts Cross-Talk of Hippo and MAPK Pathways

Author

Anwesha Dey, Matthew T. Chang, Shiva Malek, Christiaan Klijn, Jennie R. Lill, Zora Modrusan, Victoria C. Pham, Deepak Sampath, Jennifer A. Lacap, Robert Piskol, Scott E. Martin, Mamie Yu, Eva Lin, Christopher M. Rose, Jason Li, Ho-June Lee, Thijs J. Hagenbeek, and Trang H. Pham

Abstract

Supplementary Figure 4

Published

2023

30. Supplementary Figure 3 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Caspase-dependent degradation of MCL-1 in NCI-H929 HMCL following treatment with bortezomib treatment

Published

2023

31. Supplementary Figure 6 from Neutralization of BCL-2/XL Enhances the Cytotoxicity of T-DM1 In Vivo

Author

Joan S. Brugge, Deborah A. Dillon, Roderick T. Bronson, Joel D. Leverson, Deepak Sampath, Dennis J. Slamon, Neil O'Brien, Benjamin Y. Tan, Krishan Taneja, Aleksandr Vagodny, and Jason J. Zoeller

Abstract

HER2 levels post-treatment.

Published

2023

32. Supplementary Table 1 from Combined MEK and BCL-2/XL Inhibition Is Effective in High-Grade Serous Ovarian Cancer Patient–Derived Xenograft Models and BIM Levels Are Predictive of Responsiveness

Author

Joan S. Brugge, Gordon B. Mills, Deepak Sampath, Joel D. Leverson, Victor E. Velculescu, Dorothy Hallberg, Ursula A. Matulonis, Ronny Drapkin, Joyce F. Liu, Sangeetha Palakurthi, Laura M. Selfors, Ioannis K. Zervantonakis, and Claudia Iavarone

Abstract

Supplementary Table 1 shows the p53 mutation in the PDX models

Published

2023

33. Supplementary Figures 1-4, Tables 1-8 from GDC-0980 Is a Novel Class I PI3K/mTOR Kinase Inhibitor with Robust Activity in Cancer Models Driven by the PI3K Pathway

Author

Lori S. Friedman, Marcia Belvin, Deepak Sampath, Mark R. Lackner, Leanne Ross, Robert Kassees, Letitia Lensun, Sonal Patel, Jill M. Spoerke, Carol O'Brien, Daniel P. Sutherlin, Alan G. Olivero, Laurent Salphati, Jodie Pang, Jim Nonomiya, Cristina Lewis, John D. Lesnick, Leslie Lee, Wei Wei Prior, Megan Berry, Jane Guan, Kyle A. Edgar, and Jeffrey J. Wallin

Abstract

PDF file - 894K

Published

2023

34. Supplementary Tables 1 through 4 and Supplementary Figures 1 through 7 from Phase I Dose-Escalation Study of Taselisib, an Oral PI3K Inhibitor, in Patients with Advanced Solid Tumors

Author

José Baselga, Daniel D. Von Hoff, Jerry Y. Hsu, Hema Parmar, Huan Jin, Ray S. Lin, Laurent Salphati, Deepak Sampath, Heidi M. Savage, Sandra M. Sanabria Bohorquez, Joseph A. Ware, Timothy R. Wilson, Ramesh K. Ramanathan, Ian Krop, and Dejan Juric

Abstract

Supplementary Table S1. Patient Demographics and Disease Characteristics. Supplementary Table S2. Treatment-Related Adverse Events of Grade 3 or Higher Observed in either Cycle 1 or Cycle greater than or equal to 2. Supplementary Table S3. Adverse Events in greater than or equal to 10% of Patients Regardless of Attribution. Supplementary Table S4. Adverse Events of Grade 3 or Higher Regardless of Attribution. Supplementary Figure S1. Trellis plot of individual and fitted tumor volumes to day 21 following treatment with taselisib (GDC-0032). Supplementary Figure S2. PI3K pathway suppression was evaluated in KPL-4 tumor xenografts following a single oral dose of 1, 5 and 25 mg/kg taselisib or MCT (0.5% methylcellulose/0.2% Tween-80) vehicle at the time points indicated. Supplementary Figure S3. Schematic showing the decision-making related to selection of recommended dose for future studies. Supplementary Figure S4. Mean plasma concentration vs. time following single dose on day 1 (A) and multiple dose on day 15 (B). Supplementary Figure S5. Duration of treatment of patients treated via PIK3CA mutation status and dose level. Supplementary Figure S6. Antitumor activity observed with taselisib treatment. Supplementary Figure S7. Example of patient with partial response upon taselisib treatment and changes in circulating tumor DNA (ctDNA).

Published

2023

35. Supplementary Figure 2 from The Bcl-2/Bcl-XL/Bcl-w Inhibitor, Navitoclax, Enhances the Activity of Chemotherapeutic Agents In Vitro and In Vivo

Author

Steven W. Elmore, Chris Tse, Joel D. Leverson, Deepak Sampath, Heather Maecker, Saul H. Rosenberg, Scott L. Ackler, Haichao Zhang, Stephen K. Tahir, Alexander R. Shoemaker, Yu Shen, Morey Smith, Xiaoyu Lin, Paul Nimmer, Michael J. Mitten, Bernard Liu, Xiaoli Huang, Vivek Abraham, Sha Jin, and Jun Chen

Abstract

PDF file - 40K

Published

2023

36. Supplementary Figure 5 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

BCL-2 and BCL-XL IHC correlates with qPCR and immunobot analysis of HMCLs

Published

2023

37. Data from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

BCL-2 family proteins dictate survival of human multiple myeloma cells, making them attractive drug targets. Indeed, multiple myeloma cells are sensitive to antagonists that selectively target prosurvival proteins such as BCL-2/BCL-XL (ABT-737 and ABT-263/navitoclax) or BCL-2 only (ABT-199/GDC-0199/venetoclax). Resistance to these three drugs is mediated by expression of MCL-1. However, given the selectivity profile of venetoclax it is unclear whether coexpression of BCL-XL also affects antitumor responses to venetoclax in multiple myeloma. In multiple myeloma cell lines (n = 21), BCL-2 is expressed but sensitivity to venetoclax correlated with high BCL-2 and low BCL-XL or MCL-1 expression. Multiple myeloma cells that coexpress BCL-2 and BCL-XL were resistant to venetoclax but sensitive to a BCL-XL–selective inhibitor (A-1155463). Multiple myeloma xenograft models that coexpressed BCL-XL or MCL-1 with BCL-2 were also resistant to venetoclax. Resistance to venetoclax was mitigated by cotreatment with bortezomib in xenografts that coexpressed BCL-2 and MCL-1 due to upregulation of NOXA, a proapoptotic factor that neutralizes MCL-1. In contrast, xenografts that expressed BCL-XL, MCL-1, and BCL-2 were more sensitive to the combination of bortezomib with a BCL-XL selective inhibitor (A-1331852) but not with venetoclax cotreatment when compared with monotherapies. IHC of multiple myeloma patient bone marrow biopsies and aspirates (n = 95) revealed high levels of BCL-2 and BCL-XL in 62% and 43% of evaluable samples, respectively, while 34% were characterized as BCL-2High/BCL-XLLow. In addition to MCL-1, our data suggest that BCL-XL may also be a potential resistance factor to venetoclax monotherapy and in combination with bortezomib. Mol Cancer Ther; 15(5); 1132–44. ©2016 AACR.

Published

2023

38. Supplementary Figure 3 from Bcl-2/Bcl-xL Inhibition Increases the Efficacy of MEK Inhibition Alone and in Combination with PI3 Kinase Inhibition in Lung and Pancreatic Tumor Models

Author

Lisa D. Belmont, Wayne J. Fairbrother, Jeffrey Settleman, Deepak Sampath, Peng Yue, Pierre Pascal Savy, Karen Williams, Stephen Price, Leslie B. Lee, Rebecca Hong, Michelle A. Nannini, Maureen Wong, and Nguyen Tan

Abstract

PDF file - 751K, Bliss Scores of A549 and H647 Across Dose Matrix. Percent inhibition relative to DMSO control was measured using CellTiterGlo. Bliss scores were calculated as described in the materials and methods

Published

2023

39. Data from Bcl-2/Bcl-xL Inhibition Increases the Efficacy of MEK Inhibition Alone and in Combination with PI3 Kinase Inhibition in Lung and Pancreatic Tumor Models

Author

Lisa D. Belmont, Wayne J. Fairbrother, Jeffrey Settleman, Deepak Sampath, Peng Yue, Pierre Pascal Savy, Karen Williams, Stephen Price, Leslie B. Lee, Rebecca Hong, Michelle A. Nannini, Maureen Wong, and Nguyen Tan

Abstract

Although mitogen-activated protein (MAP)–extracellular signal-regulated kinase (ERK) kinase (MEK) inhibition is predicted to cause cell death by stabilization of the proapoptotic BH3-only protein BIM, the induction of apoptosis is often modest. To determine if addition of a Bcl-2 family inhibitor could increase the efficacy of a MEK inhibitor, we evaluated a panel of 53 non–small cell lung cancer and pancreatic cancer cell lines with the combination of navitoclax (ABT-263), a Bcl-2/Bcl-xL (BCL2/BCL2L1) antagonist, and a novel MAP kinase (MEK) inhibitor, G-963. The combination is synergistic in the majority of lines, with an enrichment of cell lines harboring KRAS mutations in the high synergy group. Cells exposed to G-963 arrest in G1 and a small fraction undergo apoptosis. The addition of navitoclax to G-963 does not alter the kinetics of cell-cycle arrest, but greatly increases the percentage of cells that undergo apoptosis. The G-963/navitoclax combination was more effective than either single agent in the KRAS mutant H2122 xenograft model; BIM stabilization and PARP cleavage were observed in tumors, consistent with the mechanism of action observed in cell culture. Addition of the phosphatidylinositol 3-kinase (PI3K, PIK3CA) inhibitor GDC-0941 to this treatment combination increases cell killing compared with double- or single-agent treatment. Taken together, these data suggest the efficacy of agents that target the MAPK and PI3K pathways can be improved by combination with a Bcl-2 family inhibitor. Mol Cancer Ther; 12(6); 853–64. ©2013 AACR.

Published

2023

40. Supplementary Figures from Venetoclax Increases Intratumoral Effector T Cells and Antitumor Efficacy in Combination with Immune Checkpoint Blockade

Author

Tamar Uziel, William N. Pappano, Cherrie Donawho, Joel D. Leverson, Keith M. Hamel, Ahmed Hamed Salem, Anahita Bhathena, Mark Merchant, Aparna Raval, Deepak Sampath, Christine J. Orr, Yijin Li, An D. Do, Valerie A. Robinson, Jacob J. Riehm, Nimita Dave, Yan Shi, Elisabeth A. Lasater, Rui Wang, Paul A. Ellis, Ryan Duggan, Rebecca Mathew, Dipica Haribhai, and Frederick J. Kohlhapp

Abstract

Supplementary Figures S1-S10

Published

2023

41. Supplementary Figure 4 from Neutralization of BCL-2/XL Enhances the Cytotoxicity of T-DM1 In Vivo

Author

Joan S. Brugge, Deborah A. Dillon, Roderick T. Bronson, Joel D. Leverson, Deepak Sampath, Dennis J. Slamon, Neil O'Brien, Benjamin Y. Tan, Krishan Taneja, Aleksandr Vagodny, and Jason J. Zoeller

Abstract

ABT-737 enhances the effectiveness of T-DM1 in vivo.

Published

2023

42. Data from An Anti-GDNF Family Receptor Alpha 1 (GFRA1) Antibody–Drug Conjugate for the Treatment of Hormone Receptor–Positive Breast Cancer

Author

Jagath R. Junutula, Paul Polakis, Richard H. Scheller, Mark S. Dennis, Deepak Sampath, Jo-Anne Hongo, Helga Raab, Katherine R. Kozak, Aimee Fourie-O'Donohue, Ron Firestein, Robert Piskol, Eric Cheng, Mary Ann T. Go, Kirsten A. Poon, Fiona Zhong, Rachana Ohri, Coenraad Kuijl, Dongwei Li, Melissa M. Schutten, Meredith Hazen, Yvonne Chen, Lisa M. Crocker, and Sunil Bhakta

Abstract

Luminal A (hormone receptor-positive) breast cancer constitutes 70% of total breast cancer patients. In an attempt to develop a targeted therapeutic for this cancer indication, we have identified and characterized Glial cell line–Derived Neurotrophic Factor (GDNF) Family Receptor Alpha 1 (GFRA1) antibody–drug conjugates (ADC) using a cleavable valine-citrulline-MMAE (vcMMAE) linker-payload. RNAseq and IHC analysis confirmed the abundant expression of GFRA1 in luminal A breast cancer tissues, whereas minimal or no expression was observed in most normal tissues. Anti–GFRA-vcMMAE ADC internalized to the lysosomes and exhibited target-dependent killing of GFRA1-expressing cells both in vitro and in vivo. The ADCs using humanized anti-GFRA1 antibodies displayed robust therapeutic activity in clinically relevant cell line–derived (MCF7 and KPL-1) tumor xenograft models. The lead anti-GFRA1 ADC cross-reacts with rodent and cynomolgus monkey GFRA1 antigen and showed optimal pharmacokinetic properties in both species. These properties subsequently enabled a target-dependent toxicity study in rats. Anti-GFRA1 ADC is well tolerated in rats, as seen with other vcMMAE linker–payload based ADCs. Overall, these data suggest that anti–GFRA1-vcMMAE ADC may provide a targeted therapeutic opportunity for luminal A breast cancer patients. Mol Cancer Ther; 17(3); 638–49. ©2017 AACR.

Published

2023

43. Supplementary Figure 5 from Neutralization of BCL-2/XL Enhances the Cytotoxicity of T-DM1 In Vivo

Author

Joan S. Brugge, Deborah A. Dillon, Roderick T. Bronson, Joel D. Leverson, Deepak Sampath, Dennis J. Slamon, Neil O'Brien, Benjamin Y. Tan, Krishan Taneja, Aleksandr Vagodny, and Jason J. Zoeller

Abstract

p63 MCL-1 HER3 post-treatment.

Published

2023

44. Supplementary Data from Venetoclax Increases Intratumoral Effector T Cells and Antitumor Efficacy in Combination with Immune Checkpoint Blockade

Author

Tamar Uziel, William N. Pappano, Cherrie Donawho, Joel D. Leverson, Keith M. Hamel, Ahmed Hamed Salem, Anahita Bhathena, Mark Merchant, Aparna Raval, Deepak Sampath, Christine J. Orr, Yijin Li, An D. Do, Valerie A. Robinson, Jacob J. Riehm, Nimita Dave, Yan Shi, Elisabeth A. Lasater, Rui Wang, Paul A. Ellis, Ryan Duggan, Rebecca Mathew, Dipica Haribhai, and Frederick J. Kohlhapp

Abstract

Supplementary Table 1

Published

2023

45. Data from Combined MEK and BCL-2/XL Inhibition Is Effective in High-Grade Serous Ovarian Cancer Patient–Derived Xenograft Models and BIM Levels Are Predictive of Responsiveness

Author

Joan S. Brugge, Gordon B. Mills, Deepak Sampath, Joel D. Leverson, Victor E. Velculescu, Dorothy Hallberg, Ursula A. Matulonis, Ronny Drapkin, Joyce F. Liu, Sangeetha Palakurthi, Laura M. Selfors, Ioannis K. Zervantonakis, and Claudia Iavarone

Abstract

Most patients with late-stage high-grade serous ovarian cancer (HGSOC) initially respond to chemotherapy but inevitably relapse and develop resistance, highlighting the need for novel therapies to improve patient outcomes. The MEK/ERK pathway is activated in a large subset of HGSOC, making it an attractive therapeutic target. Here, we systematically evaluated the extent of MEK/ERK pathway activation and efficacy of pathway inhibition in a large panel of well-annotated HGSOC patient–derived xenograft models. The vast majority of models were nonresponsive to the MEK inhibitor cobimetinib (GDC-0973) despite effective pathway inhibition. Proteomic analyses of adaptive responses to GDC-0973 revealed that GDC-0973 upregulated the proapoptotic protein BIM, thus priming the cells for apoptosis regulated by BCL2-family proteins. Indeed, combination of both MEK inhibitor and dual BCL-2/XL inhibitor (ABT-263) significantly reduced cell number, increased cell death, and displayed synergy in vitro in most models. In vivo, GDC-0973 and ABT-263 combination was well tolerated and resulted in greater tumor growth inhibition than single agents. Detailed proteomic and correlation analyses identified two subsets of responsive models—those with high BIM at baseline that was increased with MEK inhibition and those with low basal BIM and high pERK levels. Models with low BIM and low pERK were nonresponsive. Our findings demonstrate that combined MEK and BCL-2/XL inhibition has therapeutic activity in HGSOC models and provide a mechanistic rationale for the clinical evaluation of this drug combination as well as the assessment of the extent to which BIM and/or pERK levels predict drug combination effectiveness in chemoresistant HGSOC.

Published

2023

46. Supplementary Figure 1 from Neutralization of BCL-2/XL Enhances the Cytotoxicity of T-DM1 In Vivo

Author

Joan S. Brugge, Deborah A. Dillon, Roderick T. Bronson, Joel D. Leverson, Deepak Sampath, Dennis J. Slamon, Neil O'Brien, Benjamin Y. Tan, Krishan Taneja, Aleksandr Vagodny, and Jason J. Zoeller

Abstract

Assessment of ERBB2 amplification.

Published

2023

47. Supplementary Figure 1 from Bcl-2/Bcl-xL Inhibition Increases the Efficacy of MEK Inhibition Alone and in Combination with PI3 Kinase Inhibition in Lung and Pancreatic Tumor Models

Author

Lisa D. Belmont, Wayne J. Fairbrother, Jeffrey Settleman, Deepak Sampath, Peng Yue, Pierre Pascal Savy, Karen Williams, Stephen Price, Leslie B. Lee, Rebecca Hong, Michelle A. Nannini, Maureen Wong, and Nguyen Tan

Abstract

PDF file - 115K, Synthetic route for G-963

Published

2023

48. Supplementary Table 2 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Correlation of mRNA expression of BCL2 family members and sensitivity to venetoclax or navitoclax in HMCLs

Published

2023

49. Supplementary Figure 2 from Neutralization of BCL-2/XL Enhances the Cytotoxicity of T-DM1 In Vivo

Author

Joan S. Brugge, Deborah A. Dillon, Roderick T. Bronson, Joel D. Leverson, Deepak Sampath, Dennis J. Slamon, Neil O'Brien, Benjamin Y. Tan, Krishan Taneja, Aleksandr Vagodny, and Jason J. Zoeller

Abstract

Comparison of continuous versus pulsatile combination treatments.

Published

2023

50. Supplementary Figure 4 from Expression Profile of BCL-2, BCL-XL, and MCL-1 Predicts Pharmacological Response to the BCL-2 Selective Antagonist Venetoclax in Multiple Myeloma Models

Author

Deepak Sampath, Andrew J. Souers, Martine Amiot, Wayne J. Fairbrother, Sophie Maiga, Leslie Lee, Jason Oeh, Peng Yue, Paul Tapang, Anatol Oleksijew, Walter C. Darbonne, Ellen Ingalla, Michael Mitten, Amy Young, Nguyen Tan, Lisa D. Belmont, Erwin R. Boghaert, Franklin Peale, Joel D. Leverson, and Elizabeth A. Punnoose

Abstract

Conceptual workflow for establishing BCL-2 family IHC cut-offs for analysis of MM patient tumor samples

Published

2023