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3. Targeting PRMT9-mediated arginine methylation suppresses cancer stem cell maintenance and elicits cGAS-mediated anticancer immunity

Author

Dong, Haojie, He, Xin, Zhang, Lei, Chen, Wei, Lin, Yi-Chun, Liu, Song-Bai, Wang, Huafeng, Nguyen, Le Xuan Truong, Li, Min, Zhu, Yinghui, Zhao, Dandan, Ghoda, Lucy, Serody, Jonathan, Vincent, Benjamin, Luznik, Leo, Gojo, Ivana, Zeidner, Joshua, Su, Rui, Chen, Jianjun, Sharma, Ritin, Pirrotte, Patrick, Wu, Xiwei, Hu, Weidong, Han, Weidong, Shen, Binghui, Kuo, Ya-Huei, Jin, Jie, Salhotra, Amandeep, Wang, Jeffrey, Marcucci, Guido, Luo, Yun Lyna, and Li, Ling

Published
2024
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4. A novel class of inhibitors that disrupts the stability of integrin heterodimers identified by CRISPR-tiling-instructed genetic screens

Author

Mattson, Nicole M., Chan, Anthony K. N., Miyashita, Kazuya, Mukhaleva, Elizaveta, Chang, Wen-Han, Yang, Lu, Ma, Ning, Wang, Yingyu, Pokharel, Sheela Pangeni, Li, Mingli, Liu, Qiao, Xu, Xiaobao, Chen, Renee, Singh, Priyanka, Zhang, Leisi, Elsayed, Zeinab, Chen, Bryan, Keen, Denise, Pirrotte, Patrick, Rosen, Steven. T., Chen, Jianjun, LaBarge, Mark A., Shively, John E., Vaidehi, Nagarajan, Rockne, Russell C., Feng, Mingye, and Chen, Chun-Wei

Published
2024
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7. Acquired miR-142 deficit in leukemic stem cells suffices to drive chronic myeloid leukemia into blast crisis

Author

Zhang, Bin, Zhao, Dandan, Chen, Fang, Frankhouser, David, Wang, Huafeng, Pathak, Khyatiben V., Dong, Lei, Torres, Anakaren, Garcia-Mansfield, Krystine, Zhang, Yi, Hoang, Dinh Hoa, Chen, Min-Hsuan, Tao, Shu, Cho, Hyejin, Liang, Yong, Perrotti, Danilo, Branciamore, Sergio, Rockne, Russell, Wu, Xiwei, Ghoda, Lucy, Li, Ling, Jin, Jie, Chen, Jianjun, Yu, Jianhua, Caligiuri, Michael A., Kuo, Ya-Huei, Boldin, Mark, Su, Rui, Swiderski, Piotr, Kortylewski, Marcin, Pirrotte, Patrick, Nguyen, Le Xuan Truong, and Marcucci, Guido

Published
2023
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8. Alanine supplementation exploits glutamine dependency induced by SMARCA4/2-loss

Author

Zhu, Xianbing, Fu, Zheng, Chen, Shary Y., Ong, Dionzie, Aceto, Giulio, Ho, Rebecca, Steinberger, Jutta, Monast, Anie, Pilon, Virginie, Li, Eunice, Ta, Monica, Ching, Kyle, Adams, Bianca N., Negri, Gian L., Choiniere, Luc, Fu, Lili, Pavlakis, Kitty, Pirrotte, Patrick, Avizonis, Daina Z., Trent, Jeffrey, Weissman, Bernard E., Klein Geltink, Ramon I., Morin, Gregg B., Park, Morag, Huntsman, David G., Foulkes, William D., Wang, Yemin, and Huang, Sidong

Published
2023
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11. Proteomics and mathematical modeling of longitudinal CSF differentiates fast versus slow ALS progression

Author

Lucas Vu, Krystine Garcia‐Mansfield, Antonio Pompeiano, Jiyan An, Victoria David‐Dirgo, Ritin Sharma, Vinisha Venugopal, Harkeerat Halait, Guido Marcucci, Ya‐Huei Kuo, Lisa Uechi, Russell C. Rockne, Patrick Pirrotte, and Robert Bowser

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Objective Amyotrophic lateral sclerosis (ALS) is a heterogeneous disease with a complex etiology that lacks biomarkers predicting disease progression. The objective of this study was to use longitudinal cerebrospinal fluid (CSF) samples to identify biomarkers that distinguish fast progression (FP) from slow progression (SP) and assess their temporal response. Methods We utilized mass spectrometry (MS)‐based proteomics to identify candidate biomarkers using longitudinal CSF from a discovery cohort of SP and FP ALS patients. Immunoassays were used to quantify and validate levels of the top biomarkers. A state‐transition mathematical model was created using the longitudinal MS data that also predicted FP versus SP. Results We identified a total of 1148 proteins in the CSF of all ALS patients. Pathway analysis determined enrichment of pathways related to complement and coagulation cascades in FPs and synaptogenesis and glucose metabolism in SPs. Longitudinal analysis revealed a panel of 59 candidate markers that could segregate FP and SP ALS. Based on multivariate analysis, we identified three biomarkers (F12, RBP4, and SERPINA4) as top candidates that segregate ALS based on rate of disease progression. These proteins were validated in the discovery and a separate validation cohort. Our state‐transition model determined that the overall variance of the proteome over time was predictive of the disease progression rate. Interpretation We identified pathways and protein biomarkers that distinguish rate of ALS disease progression. A mathematical model of the CSF proteome determined that the change in entropy of the proteome over time was predictive of FP versus SP.

Published
2023
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12. Acquired miR-142 deficit in leukemic stem cells suffices to drive chronic myeloid leukemia into blast crisis

Author

Bin Zhang, Dandan Zhao, Fang Chen, David Frankhouser, Huafeng Wang, Khyatiben V. Pathak, Lei Dong, Anakaren Torres, Krystine Garcia-Mansfield, Yi Zhang, Dinh Hoa Hoang, Min-Hsuan Chen, Shu Tao, Hyejin Cho, Yong Liang, Danilo Perrotti, Sergio Branciamore, Russell Rockne, Xiwei Wu, Lucy Ghoda, Ling Li, Jie Jin, Jianjun Chen, Jianhua Yu, Michael A. Caligiuri, Ya-Huei Kuo, Mark Boldin, Rui Su, Piotr Swiderski, Marcin Kortylewski, Patrick Pirrotte, Le Xuan Truong Nguyen, and Guido Marcucci

Subjects
Science
Abstract

Abstract The mechanisms underlying the transformation of chronic myeloid leukemia (CML) from chronic phase (CP) to blast crisis (BC) are not fully elucidated. Here, we show lower levels of miR-142 in CD34+CD38− blasts from BC CML patients than in those from CP CML patients, suggesting that miR-142 deficit is implicated in BC evolution. Thus, we create miR-142 knockout CML (i.e., miR-142 −/− BCR-ABL) mice, which develop BC and die sooner than miR-142 wt CML (i.e., miR-142 +/+ BCR-ABL) mice, which instead remain in CP CML. Leukemic stem cells (LSCs) from miR-142 −/− BCR-ABL mice recapitulate the BC phenotype in congenic recipients, supporting LSC transformation by miR-142 deficit. State-transition and mutual information analyses of “bulk” and single cell RNA-seq data, metabolomic profiling and functional metabolic assays identify enhanced fatty acid β-oxidation, oxidative phosphorylation and mitochondrial fusion in LSCs as key steps in miR-142-driven BC evolution. A synthetic CpG-miR-142 mimic oligodeoxynucleotide rescues the BC phenotype in miR-142 −/− BCR-ABL mice and patient-derived xenografts.

Published
2023
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13. EGFRvIII Confers Sensitivity to Saracatinib in a STAT5-Dependent Manner in Glioblastoma

Author

Mylan R. Blomquist, Ryan Eghlimi, Angad Beniwal, Dustin Grief, David G. Nascari, Landon Inge, Christopher P. Sereduk, Serdar Tuncali, Alison Roos, Hannah Inforzato, Ritin Sharma, Patrick Pirrotte, Shwetal Mehta, Shannon P. Fortin Ensign, Joseph C. Loftus, and Nhan L. Tran

Subjects
glioblastoma, cell signaling, receptor tyrosine kinase, precision oncology, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Glioblastoma (GBM) is the most common primary malignant brain tumor in adults, with few effective treatments. EGFR alterations, including expression of the truncated variant EGFRvIII, are among the most frequent genomic changes in these tumors. EGFRvIII is known to preferentially signal through STAT5 for oncogenic activation in GBM, yet targeting EGFRvIII has yielded limited clinical success to date. In this study, we employed patient-derived xenograft (PDX) models expressing EGFRvIII to determine the key points of therapeutic vulnerability within the EGFRvIII-STAT5 signaling axis in GBM. Our findings reveal that exogenous expression of paralogs STAT5A and STAT5B augments cell proliferation and that inhibition of STAT5 phosphorylation in vivo improves overall survival in combination with temozolomide (TMZ). STAT5 phosphorylation is independent of JAK1 and JAK2 signaling, instead requiring Src family kinase (SFK) activity. Saracatinib, an SFK inhibitor, attenuates phosphorylation of STAT5 and preferentially sensitizes EGFRvIII+ GBM cells to undergo apoptotic cell death relative to wild-type EGFR. Constitutively active STAT5A or STAT5B mitigates saracatinib sensitivity in EGFRvIII+ cells. In vivo, saracatinib treatment decreased survival in mice bearing EGFR WT tumors compared to the control, yet in EGFRvIII+ tumors, treatment with saracatinib in combination with TMZ preferentially improves survival.

Published
2024
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14. Alanine supplementation exploits glutamine dependency induced by SMARCA4/2-loss

Author

Xianbing Zhu, Zheng Fu, Shary Y. Chen, Dionzie Ong, Giulio Aceto, Rebecca Ho, Jutta Steinberger, Anie Monast, Virginie Pilon, Eunice Li, Monica Ta, Kyle Ching, Bianca N. Adams, Gian L. Negri, Luc Choiniere, Lili Fu, Kitty Pavlakis, Patrick Pirrotte, Daina Z. Avizonis, Jeffrey Trent, Bernard E. Weissman, Ramon I. Klein Geltink, Gregg B. Morin, Morag Park, David G. Huntsman, William D. Foulkes, Yemin Wang, and Sidong Huang

Subjects
Science
Abstract

Abstract SMARCA4 (BRG1) and SMARCA2 (BRM) are the two paralogous ATPases of the SWI/SNF chromatin remodeling complexes frequently inactivated in cancers. Cells deficient in either ATPase have been shown to depend on the remaining counterpart for survival. Contrary to this paralog synthetic lethality, concomitant loss of SMARCA4/2 occurs in a subset of cancers associated with very poor outcomes. Here, we uncover that SMARCA4/2-loss represses expression of the glucose transporter GLUT1, causing reduced glucose uptake and glycolysis accompanied with increased dependency on oxidative phosphorylation (OXPHOS); adapting to this, these SMARCA4/2-deficient cells rely on elevated SLC38A2, an amino acid transporter, to increase glutamine import for fueling OXPHOS. Consequently, SMARCA4/2-deficient cells and tumors are highly sensitive to inhibitors targeting OXPHOS or glutamine metabolism. Furthermore, supplementation of alanine, also imported by SLC38A2, restricts glutamine uptake through competition and selectively induces death in SMARCA4/2-deficient cancer cells. At a clinically relevant dose, alanine supplementation synergizes with OXPHOS inhibition or conventional chemotherapy eliciting marked antitumor activity in patient-derived xenografts. Our findings reveal multiple druggable vulnerabilities of SMARCA4/2-loss exploiting a GLUT1/SLC38A2-mediated metabolic shift. Particularly, unlike dietary deprivation approaches, alanine supplementation can be readily applied to current regimens for better treatment of these aggressive cancers.

Published
2023
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15. CDK9 inhibition induces epigenetic reprogramming revealing strategies to circumvent resistance in lymphoma

Author

Elana Thieme, Nur Bruss, Duanchen Sun, Edward C. Dominguez, Daniel Coleman, Tingting Liu, Carly Roleder, Melissa Martinez, Krystine Garcia-Mansfield, Brian Ball, Patrick Pirrotte, Lili Wang, Zheng Xia, and Alexey V. Danilov

Subjects
CDK9, BRD4, Mediator, Super-enhancer, PI3K, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Diffuse large B-cell lymphoma (DLBCL) exhibits significant genetic heterogeneity which contributes to drug resistance, necessitating development of novel therapeutic approaches. Pharmacological inhibitors of cyclin-dependent kinases (CDK) demonstrated pre-clinical activity in DLBCL, however many stalled in clinical development. Here we show that AZD4573, a selective inhibitor of CDK9, restricted growth of DLBCL cells. CDK9 inhibition (CDK9i) resulted in rapid changes in the transcriptome and proteome, with downmodulation of multiple oncoproteins (eg, MYC, Mcl-1, JunB, PIM3) and deregulation of phosphoinotiside-3 kinase (PI3K) and senescence pathways. Following initial transcriptional repression due to RNAPII pausing, we observed transcriptional recovery of several oncogenes, including MYC and PIM3. ATAC-Seq and ChIP-Seq experiments revealed that CDK9i induced epigenetic remodeling with bi-directional changes in chromatin accessibility, suppressed promoter activation and led to sustained reprograming of the super-enhancer landscape. A CRISPR library screen suggested that SE-associated genes in the Mediator complex, as well as AKT1, confer resistance to CDK9i. Consistent with this, sgRNA-mediated knockout of MED12 sensitized cells to CDK9i. Informed by our mechanistic findings, we combined AZD4573 with either PIM kinase or PI3K inhibitors. Both combinations decreased proliferation and induced apoptosis in DLBCL and primary lymphoma cells in vitro as well as resulted in delayed tumor progression and extended survival of mice xenografted with DLBCL in vivo. Thus, CDK9i induces reprogramming of the epigenetic landscape, and super-enhancer driven recovery of select oncogenes may contribute to resistance to CDK9i. PIM and PI3K represent potential targets to circumvent resistance to CDK9i in the heterogeneous landscape of DLBCL.

Published
2023
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16. Inhibition of DNMT1 methyltransferase activity via glucose-regulated O-GlcNAcylation alters the epigenome

Author

Heon Shin, Amy Leung, Kevin R Costello, Parijat Senapati, Hiroyuki Kato, Roger E Moore, Michael Lee, Dimitri Lin, Xiaofang Tang, Patrick Pirrotte, Zhen Bouman Chen, and Dustin E Schones

Subjects
epigenetics, metabolism, O-GlcNAcylation, hyperglycemia, Medicine, Science, Biology (General), QH301-705.5
Abstract

The DNA methyltransferase activity of DNMT1 is vital for genomic maintenance of DNA methylation. We report here that DNMT1 function is regulated by O-GlcNAcylation, a protein modification that is sensitive to glucose levels, and that elevated O-GlcNAcylation of DNMT1 from high glucose environment leads to alterations to the epigenome. Using mass spectrometry and complementary alanine mutation experiments, we identified S878 as the major residue that is O-GlcNAcylated on human DNMT1. Functional studies in human and mouse cells further revealed that O-GlcNAcylation of DNMT1-S878 results in an inhibition of methyltransferase activity, resulting in a general loss of DNA methylation that preferentially occurs at partially methylated domains (PMDs). This loss of methylation corresponds with an increase in DNA damage and apoptosis. These results establish O-GlcNAcylation of DNMT1 as a mechanism through which the epigenome is regulated by glucose metabolism and implicates a role for glycosylation of DNMT1 in metabolic diseases characterized by hyperglycemia.

Published
2023
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17. Glyphosate infiltrates the brain and increases pro-inflammatory cytokine TNFα: implications for neurodegenerative disorders

Author

Joanna K. Winstone, Khyatiben V. Pathak, Wendy Winslow, Ignazio S. Piras, Jennifer White, Ritin Sharma, Matthew J. Huentelman, Patrick Pirrotte, and Ramon Velazquez

Subjects
Glyphosate, Aminomethylphosphonic acid, TNFα, C57BL/6J, Neuroinflammation, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Background Herbicides are environmental contaminants that have gained much attention due to the potential hazards they pose to human health. Glyphosate, the active ingredient in many commercial herbicides, is the most heavily applied herbicide worldwide. The recent rise in glyphosate application to corn and soy crops correlates positively with increased death rates due to Alzheimer’s disease and other neurodegenerative disorders. Glyphosate has been shown to cross the blood–brain barrier in in vitro models, but has yet to be verified in vivo. Additionally, reports have shown that glyphosate exposure increases pro-inflammatory cytokines in blood plasma, particularly TNFα. Methods Here, we examined whether glyphosate infiltrates the brain and elevates TNFα levels in 4-month-old C57BL/6J mice. Mice received either 125, 250, or 500 mg/kg/day of glyphosate, or a vehicle via oral gavage for 14 days. Urine, plasma, and brain samples were collected on the final day of dosing for analysis via UPLC–MS and ELISAs. Primary cortical neurons were derived from amyloidogenic APP/PS1 pups to evaluate in vitro changes in Aβ40-42 burden and cytotoxicity. RNA sequencing was performed on C57BL/6J brain samples to determine changes in the transcriptome. Results Our analysis revealed that glyphosate infiltrated the brain in a dose-dependent manner and upregulated TNFα in both plasma and brain tissue post-exposure. Notably, glyphosate measures correlated positively with TNFα levels. Glyphosate exposure in APP/PS1 primary cortical neurons increases levels of soluble Aβ40-42 and cytotoxicity. RNAseq revealed over 200 differentially expressed genes in a dose-dependent manner and cell-type-specific deconvolution analysis showed enrichment of key biological processes in oligodendrocytes including myelination, axon ensheathment, glial cell development, and oligodendrocyte development. Conclusions Collectively, these results show for the first time that glyphosate infiltrates the brain, elevates both the expression of TNFα and soluble Aβ, and disrupts the transcriptome in a dose-dependent manner, suggesting that exposure to this herbicide may have detrimental outcomes regarding the health of the general population.

Published
2022
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19. Metabolic convergence on lipogenesis in RAS, BCR-ABL, and MYC-driven lymphoid malignancies

Author

Daniel F. Liefwalker, Meital Ryan, Zhichao Wang, Khyatiben V. Pathak, Seema Plaisier, Vidhi Shah, Bobby Babra, Gabrielle S. Dewson, Ian K. Lai, Adriane R. Mosley, Patrick T. Fueger, Stephanie C. Casey, Lei Jiang, Patrick Pirrotte, Srividya Swaminathan, and Rosalie C. Sears

Subjects
c-MYC, BCR-ABL, RAS, Lymphoma, T-ALL, Cancer metabolism, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Metabolic reprogramming is a central feature in many cancer subtypes and a hallmark of cancer. Many therapeutic strategies attempt to exploit this feature, often having unintended side effects on normal metabolic programs and limited efficacy due to integrative nature of metabolic substrate sourcing. Although the initiating oncogenic lesion may vary, tumor cells in lymphoid malignancies often share similar environments and potentially similar metabolic profiles. We examined cells from mouse models of MYC-, RAS-, and BCR-ABL-driven lymphoid malignancies and find a convergence on de novo lipogenesis. We explore the potential role of MYC in mediating lipogenesis by 13C glucose tracing and untargeted metabolic profiling. Inhibition of lipogenesis leads to cell death both in vitro and in vivo and does not induce cell death of normal splenocytes. Methods We analyzed RNA-seq data sets for common metabolic convergence in lymphoma and leukemia. Using in vitro cell lines derived in from conditional MYC, RAS, and BCR-ABL transgenic murine models and oncogene-driven human cell lines, we determined gene regulation, metabolic profiles, and sensitivity to inhibition of lipogenesis in lymphoid malignancies. We utilize preclinical murine models and transgenic primary model of T-ALL to determine the effect of lipogenesis blockade across BCR-ABL-, RAS-, and c-MYC-driven lymphoid malignancies. Statistical significance was calculated using unpaired t-tests and one-way ANOVA. Results This study illustrates that de novo lipid biogenesis is a shared feature of several lymphoma subtypes. Using cell lines derived from conditional MYC, RAS, and BCR-ABL transgenic murine models, we demonstrate shared responses to inhibition of lipogenesis by the acetyl-coA carboxylase inhibitor 5-(tetradecloxy)-2-furic acid (TOFA), and other lipogenesis inhibitors. We performed metabolic tracing studies to confirm the influence of c-MYC and TOFA on lipogenesis. We identify specific cell death responses to TOFA in vitro and in vivo and demonstrate delayed engraftment and progression in vivo in transplanted lymphoma cell lines. We also observe delayed progression of T-ALL in a primary transgenic mouse model upon TOFA administration. In a panel of human cell lines, we demonstrate sensitivity to TOFA treatment as a metabolic liability due to the general convergence on de novo lipogenesis in lymphoid malignancies driven by MYC, RAS, or BCR-ABL. Importantly, cell death was not significantly observed in non-malignant cells in vivo. Conclusions These studies suggest that de novo lipogenesis may be a common survival strategy for many lymphoid malignancies and may be a clinically exploitable metabolic liability. Trial registration This study does not include any clinical interventions on human subjects.

Published
2021
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20. Improved methods for RNAseq-based alternative splicing analysis

Author

Rebecca F. Halperin, Apurva Hegde, Jessica D. Lang, Elizabeth A. Raupach, C4RCD Research Group, Christophe Legendre, Winnie S. Liang, Patricia M. LoRusso, Aleksandar Sekulic, Jeffrey A. Sosman, Jeffrey M. Trent, Sampathkumar Rangasamy, Patrick Pirrotte, and Nicholas J. Schork

Subjects
Medicine, Science
Abstract

Abstract The robust detection of disease-associated splice events from RNAseq data is challenging due to the potential confounding effect of gene expression levels and the often limited number of patients with relevant RNAseq data. Here we present a novel statistical approach to splicing outlier detection and differential splicing analysis. Our approach tests for differences in the percentages of sequence reads representing local splice events. We describe a software package called Bisbee which can predict the protein-level effect of splice alterations, a key feature lacking in many other splicing analysis resources. We leverage Bisbee’s prediction of protein level effects as a benchmark of its capabilities using matched sets of RNAseq and mass spectrometry data from normal tissues. Bisbee exhibits improved sensitivity and specificity over existing approaches and can be used to identify tissue-specific splice variants whose protein-level expression can be confirmed by mass spectrometry. We also applied Bisbee to assess evidence for a pathogenic splicing variant contributing to a rare disease and to identify tumor-specific splice isoforms associated with an oncogenic mutation. Bisbee was able to rediscover previously validated results in both of these cases and also identify common tumor-associated splice isoforms replicated in two independent melanoma datasets.

Published
2021
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21. A Multifunctional LNA Oligonucleotide-Based Strategy Blocks AR Expression and Transactivation Activity in PCa Cells

Author

Daniela Castanotto, Xiaowei Zhang, Jacqueline Rüger, Jessica Alluin, Ritin Sharma, Patrick Pirrotte, Lars Joenson, Silvia Ioannou, Michael S. Nelson, Jonas Vikeså, Bo Rode Hansen, Troels Koch, Mads Aaboe Jensen, John J. Rossi, and Cy A. Stein

Subjects
ASO, ON, SSO, splicing, nonsense codon, PST, Therapeutics. Pharmacology, RM1-950
Abstract

The androgen receptor (AR) plays a critical role in the development of prostate cancer (PCa) through the activation of androgen-induced cellular proliferation genes. Thus, blocking AR-mediated transcriptional activation is expected to inhibit the growth and spread of PCa. Using tailor-made splice-switching locked nucleic acid (LNA) oligonucleotides (SSOs), we successfully redirected splicing of the AR precursor (pre-)mRNA and destabilized the transcripts via the introduction of premature stop codons. Furthermore, the SSOs simultaneously favored production of the AR45 mRNA in lieu of the full-length AR. AR45 is an AR isoform that can attenuate the activity of both full-length and oncogenic forms of AR by binding to their common N-terminal domain (NTD), thereby blocking their transactivation potential. A large screen was subsequently used to identify individual SSOs that could best perform this dual function. The selected SSOs powerfully silence AR expression and modulate the expression of AR-responsive cellular genes. This bi-functional strategy that uses a single therapeutic molecule can be the basis for novel PCa treatments. It might also be customized to other types of therapies that require the silencing of one gene and the simultaneous expression of a different isoform.

Published
2021
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22. Shotgun proteomics coupled to nanoparticle-based biomarker enrichment reveals a novel panel of extracellular matrix proteins as candidate serum protein biomarkers for early-stage breast cancer detection

Author

Claudia Fredolini, Khyatiben V. Pathak, Luisa Paris, Kristina M. Chapple, Kristine A. Tsantilas, Matthew Rosenow, Tony J. Tegeler, Krystine Garcia-Mansfield, Davide Tamburro, Weidong Zhou, Paul Russo, Samuele Massarut, Francesco Facchiano, Claudio Belluco, Ruggero De Maria, Enrico Garaci, Lance Liotta, Emanuel F. Petricoin, and Patrick Pirrotte

Subjects
Invasive ductal carcinoma, Mammography, Serum, Protein enrichment, Nanoparticles, Multiple reaction monitoring, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background The lack of specificity and high degree of false positive and false negative rates when using mammographic screening for detecting early-stage breast cancer is a critical issue. Blood-based molecular assays that could be used in adjunct with mammography for increased specificity and sensitivity could have profound clinical impact. Our objective was to discover and independently verify a panel of candidate blood-based biomarkers that could identify the earliest stages of breast cancer and complement current mammographic screening approaches. Methods We used affinity hydrogel nanoparticles coupled with LC-MS/MS analysis to enrich and analyze low-abundance proteins in serum samples from 20 patients with invasive ductal carcinoma (IDC) breast cancer and 20 female control individuals with positive mammograms and benign pathology at biopsy. We compared these results to those obtained from five cohorts of individuals diagnosed with cancer in organs other than breast (ovarian, lung, prostate, and colon cancer, as well as melanoma) to establish IDC-specific protein signatures. Twenty-four IDC candidate biomarkers were then verified by multiple reaction monitoring (LC-MRM) in an independent validation cohort of 60 serum samples specifically including earliest-stage breast cancer and benign controls (19 early-stage (T1a) IDC and 41 controls). Results In our discovery set, 56 proteins were increased in the serum samples from IDC patients, and 32 of these proteins were specific to IDC. Verification of a subset of these proteins in an independent cohort of early-stage T1a breast cancer yielded a panel of 4 proteins, ITGA2B (integrin subunit alpha IIb), FLNA (Filamin A), RAP1A (Ras-associated protein-1A), and TLN-1 (Talin-1), which classified breast cancer patients with 100% sensitivity and 85% specificity (AUC of 0.93). Conclusions Using a nanoparticle-based protein enrichment technology, we identified and verified a highly specific and sensitive protein signature indicative of early-stage breast cancer with no false positives when assessing benign and inflammatory controls. These markers have been previously reported in cell-ECM interaction and tumor microenvironment biology. Further studies with larger cohorts are needed to evaluate whether this biomarker panel improves the positive predictive value of mammography for breast cancer detection.

Published
2020
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25. Molecular and physical technologies for monitoring fluid and electrolyte imbalance: A focus on cancer population

Author

Devasier Bennet, Yasaman Khorsandian, Jody Pelusi, Amy Mirabella, Patrick Pirrotte, and Frederic Zenhausern

Subjects
biomarkers, biomedical sensors, electrolyte imbalance, health performance, hyperkalemia, hypocalcemia, Medicine (General), R5-920
Abstract

Abstract Several clinical examinations have shown the essential impact of monitoring (de)hydration (fluid and electrolyte imbalance) in cancer patients. There are multiple risk factors associated with (de)hydration, including aging, excessive or lack of fluid consumption in sports, alcohol consumption, hot weather, diabetes insipidus, vomiting, diarrhea, cancer, radiation, chemotherapy, and use of diuretics. Fluid and electrolyte imbalance mainly involves alterations in the levels of sodium, potassium, calcium, and magnesium in extracellular fluids. Hyponatremia is a common condition among individuals with cancer (62% of cases), along with hypokalemia (40%), hypophosphatemia (32%), hypomagnesemia (17%), hypocalcemia (12%), and hypernatremia (1‐5%). Lack of hydration and monitoring of hydration status can lead to severe complications, such as nausea/vomiting, diarrhea, fatigue, seizures, cell swelling or shrinking, kidney failure, shock, coma, and even death. This article aims to review the current (de)hydration (fluid and electrolyte imbalance) monitoring technologies focusing on cancer. First, we discuss the physiological and pathophysiological implications of fluid and electrolyte imbalance in cancer patients. Second, we explore the different molecular and physical monitoring methods used to measure fluid and electrolyte imbalance and the measurement challenges in diverse populations. Hydration status is assessed in various indices; plasma, sweat, tear, saliva, urine, body mass, interstitial fluid, and skin‐integration techniques have been extensively investigated. No unified (de)hydration (fluid and electrolyte imbalance) monitoring technology exists for different populations (including sports, elderly, children, and cancer). Establishing novel methods and technologies to facilitate and unify measurements of hydration status represents an excellent opportunity to develop impactful new approaches for patient care.

Published
2021
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26. Re-expression of SMARCA4/BRG1 in small cell carcinoma of ovary, hypercalcemic type (SCCOHT) promotes an epithelial-like gene signature through an AP-1-dependent mechanism

Author

Krystal Ann Orlando, Amber K Douglas, Aierken Abudu, Yemin Wang, Basile Tessier-Cloutier, Weiping Su, Alec Peters, Larry S Sherman, Rayvon Moore, Vinh Nguyen, Gian Luca Negri, Shane Colborne, Gregg B Morin, Friedrich Kommoss, Jessica D Lang, William PD Hendricks, Elizabeth A Raupach, Patrick Pirrotte, David G Huntsman, Jeffrey M Trent, Joel S Parker, Jesse R Raab, and Bernard E Weissman

Subjects
SCCOHT, SWI/SNF, AP-1, BRG1, multi-omics, Epithelial, Medicine, Science, Biology (General), QH301-705.5
Abstract

Small cell carcinoma of the ovary, hypercalcemic type (SCCOHT) is a rare and aggressive form of ovarian cancer. SCCOHT tumors have inactivating mutations in SMARCA4 (BRG1), one of the two mutually exclusive ATPases of the SWI/SNF chromatin remodeling complex. To address the role that BRG1 loss plays in SCCOHT tumorigenesis, we performed integrative multi-omic analyses in SCCOHT cell lines +/- BRG1 reexpression. BRG1 reexpression induced a gene and protein signature similar to an epithelial cell and gained chromatin accessibility sites correlated with other epithelial originating TCGA tumors. Gained chromatin accessibility and BRG1 recruited sites were strongly enriched for transcription-factor-binding motifs of AP-1 family members. Furthermore, AP-1 motifs were enriched at the promoters of highly upregulated epithelial genes. Using a dominant-negative AP-1 cell line, we found that both AP-1 DNA-binding activity and BRG1 reexpression are necessary for the gene and protein expression of epithelial genes. Our study demonstrates that BRG1 reexpression drives an epithelial-like gene and protein signature in SCCOHT cells that depends upon by AP-1 activity.

Published
2020
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27. Shotgun proteomics coupled to nanoparticle-based biomarker enrichment reveals a novel panel of extracellular matrix proteins as candidate serum protein biomarkers for early-stage breast cancer detection

Author

Fredolini, Claudia, Pathak, Khyatiben V., Paris, Luisa, Chapple, Kristina M., Tsantilas, Kristine A., Rosenow, Matthew, Tegeler, Tony J., Garcia-Mansfield, Krystine, Tamburro, Davide, Zhou, Weidong, Russo, Paul, Massarut, Samuele, Facchiano, Francesco, Belluco, Claudio, De Maria, Ruggero, Garaci, Enrico, Liotta, Lance, Petricoin, Emanuel F., and Pirrotte, Patrick

Published
2020
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28. PDZ-RhoGEF Is a Signaling Effector for TROY-Induced Glioblastoma Cell Invasion and Survival

Author

Zonghui Ding, Harshil Dhruv, Aneta Kwiatkowska-Piwowarczyk, Rosamaria Ruggieri, Jean Kloss, Marc Symons, Patrick Pirrotte, Jennifer M. Eschbacher, Nhan L. Tran, and Joseph C. Loftus

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

Glioblastoma multiforme (GBM) is the most common type of malignant brain tumors in adults and has a dismal prognosis. The highly aggressive invasion of malignant cells into the normal brain parenchyma renders complete surgical resection of GBM tumors impossible, increases resistance to therapeutic treatment, and leads to near-universal tumor recurrence. We have previously demonstrated that TROY (TNFRSF19) plays an important role in glioblastoma cell invasion and therapeutic resistance. However, the potential downstream effectors of TROY signaling have not been fully characterized. Here, we identified PDZ-RhoGEF as a binding partner for TROY that potentiated TROY-induced nuclear factor kappa B activation which is necessary for both cell invasion and survival. In addition, PDZ-RhoGEF also interacts with Pyk2, indicating that PDZ-RhoGEF is a component of a signalsome that includes TROY and Pyk2. PDZ-RhoGEF is overexpressed in glioblastoma tumors and stimulates glioma cell invasion via Rho activation. Increased PDZ-RhoGEF expression enhanced TROY-induced glioma cell migration. Conversely, silencing PDZ-RhoGEF expression inhibited TROY-induced glioma cell migration, increased sensitivity to temozolomide treatment, and extended survival of orthotopic xenograft mice. Furthermore, depletion of RhoC or RhoA inhibited TROY- and PDZ-RhoGEF–induced cell migration. Mechanistically, increased TROY expression stimulated Rho activation, and depletion of PDZ-RhoGEF expression reduced this activation. Taken together, these data suggest that PDZ-RhoGEF plays an important role in TROY signaling and provides insights into a potential node of vulnerability to limit GBM cell invasion and decrease therapeutic resistance.

Published
2018
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29. Single molecule characterization of individual extracellular vesicles from pancreatic cancer

Author

Kathleen M. Lennon, Devin L. Wakefield, Adam L. Maddox, Matthew S. Brehove, Ari N. Willner, Krystine Garcia-Mansfield, Bessie Meechoovet, Rebecca Reiman, Elizabeth Hutchins, Marcia M. Miller, Ajay Goel, Patrick Pirrotte, Kendall Van Keuren-Jensen, and Tijana Jovanovic-Talisman

Subjects
quantitative single molecule localization microscopy, extracellular vesicles, pancreatic cancer, translational medicine, imaging, diagnostics, Cytology, QH573-671
Abstract

Biofluid-accessible extracellular vesicles (EVs) may represent a new means to improve the sensitivity and specificity of detecting disease. However, current methods to isolate EVs encounter challenges when they are used to select specific populations. Moreover, it has been difficult to comprehensively characterize heterogeneous EV populations at the single vesicle level. Here, we robustly assessed heterogeneous EV populations from cultured cell lines via nanoparticle tracking analysis, proteomics, transcriptomics, transmission electron microscopy, and quantitative single molecule localization microscopy (qSMLM). Using qSMLM, we quantified the size and biomarker content of individual EVs. We applied qSMLM to patient plasma samples and identified a pancreatic cancer-enriched EV population. Our goal is to advance single molecule characterization of EVs for early disease detection. Abbreviations: EV: Extracellular Vesicle; qSMLM: quantitative Single Molecule Localization Microscopy; PDAC: Pancreatic Ductal Adenocarcinoma; EGFR: epidermal growth factor receptor 1; CA19-9: carbohydrate antigen 19-9; SEC: size exclusion chromatography; WGA: wheat germ agglutinin; AF647: Alexa Fluor 647; Ab: antibody; HPDEC: Healthy Pancreatic Ductal Epithelial Cell; TEM: Transmission Electron Microscopy.

Published
2019
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31. The Texas Immuno-Oncology Biorepository, a statewide biospecimen collection and clinical informatics system to enable longitudinal tumor and immune profiling.

Author

Kelly, Ronan J., Whitsett, Timothy G., Snipes, G. Jackson, Dobin, Sheila M., Finholt, Jennifer, Settele, Natalie, Priest, Elisa L., Youens, Kenneth, Wallace, Lucy B., Schwartz, Gary, Wong, Lucas, Henderson, Sherronda M., Gowan, Alan C., Fonkem, Ekokobe, Juarez, Maria I., Murray, Christal E., Wu, Jeffrey, Van Keuren-Jensen, Kendall, Pirrotte, Patrick, and Highlander, Sarah

Abstract

A detailed understanding of the molecular and immunological changes that occur longitudinally across tumors exposed to immune checkpoint inhibitors is a significant knowledge gap in oncology. To address this unmet need, we created a statewide biospecimen collection and clinical informatics system to enable longitudinal tumor and immune profiling and to enhance translational research. The Texas Immuno-Oncology Biorepository (TIOB) consents patients to collect, process, store, and analyze serial biospecimens of tissue, blood, urine, and stool from a diverse population of over 100,000 cancer patients treated each year across the Baylor Scott & White Health system. Here we sought to demonstrate that these samples were fit for purpose with regard to downstream multi-omic assays. Plasma, urine, peripheral blood mononuclear cells, and stool samples from 11 enrolled patients were collected from various cancer types. RNA isolated from extracellular vesicles derived from plasma and urine was sufficient for transcriptomics. Peripheral blood mononuclear cells demonstrated excellent yield and viability. Ten of 11 stool samples produced RNA quality to enable microbiome characterization. Sample acquisition and processing methods are known to impact sample quality and performance. We demonstrate that consistent acquisition methodology, sample preparation, and sample storage employed by the TIOB can produce high-quality specimens, suited for employment in a wide array of multi-omic platforms, enabling comprehensive immune and molecular profiling. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Assessment of short-chain fatty acid (SCFA) and circulating cytokine trends in a clinical trial of nivolumab/ipilimumab and CBM588 in metastatic renal cell carcinoma (mRCC).

Author

Dizman, Nazli, Pathak, Khyatiben, Alcantara, Marice, Meza, Luis A, Bergerot, Paulo Gustavo, Willey, Maya, Dorff, Tanya B., Hsu, Joann, Zengin, Zeynep Busra, Castro, Daniela V., Ebrahimi, Hedyeh, Chehrazi-Raffle, Alex, Tripathi, Abhishek, Trent, Jeffrey M., Takahashi, Motomichi, Oka, Kentaro, Higashi, Seiya, Kortylewski, Marcin, Pirrotte, Patrick, and Pal, Sumanta Kumar

Published
2023
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38. In Vitro Transcription/Translation System: A Versatile Tool in the Search for Missing Proteins.

Author

Horvatovich, Péter, Végvári, Ákos, Saul, Justin, Park, Jin G., Ji Qiu, Syring, Michael, Pirrotte, Patrick, Petritis, Konstantinos, Tegeler, Tony J., Aziz, Meraj, Fuentes, Manuel, Diez, Paula, Gonzalez-Gonzalez, Maria, Ibarrola, Nieves, Droste, Conrad, De Las Rivas, Javier, Gil, Concha, Clemente, Felipe, Hernaez, Maria Luisa, and Corrales, Fernando J.

Published
2015
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40. Maternal urinary levels of glyphosate during pregnancy and anogenital distance in newborns in a US multicenter pregnancy cohort.

Author

Lesseur, Corina, Pirrotte, Patrick, Pathak, Khyatiben V., Manservisi, Fabiana, Mandrioli, Daniele, Belpoggi, Fiorella, Panzacchi, Simona, Li, Qian, Barrett, Emily S., Nguyen, Ruby H.N., Sathyanarayana, Sheela, Swan, Shanna H., and Chen, Jia

Subjects
GLYPHOSATE, NEWBORN infants, LIQUID chromatography-mass spectrometry, GENITALIA, ENDOCRINE glands
Abstract

Human exposure to glyphosate has become ubiquitous because of its increasing agricultural use. Recent studies suggest endocrine disrupting effects of glyphosate. Specifically, in our work in rodents, low-dose early-life exposure to Roundup® (glyphosate-based herbicide) lengthened anogenital distance (AGD) in male and female offspring. AGD is a marker of the prenatal hormone milieu in rodents and humans. The relationship between glyphosate exposure and AGD has not been studied in humans. We conducted a pilot study in 94 mother-infant pairs (45 female and 49 male) from The Infant Development and the Environment Study (TIDES). For each infant, two AGD measurements were collected after birth; the anopenile (AGD-AP) and anoscrotal (AGD-AS) distances for males, and anoclitoral (AGD-AC) and anofourchette distances (AGD-AF) for females. We measured levels of glyphosate and its degradation product aminomethylphosphonic acid (AMPA) in 2nd trimester maternal urine samples using ultra-high-performance liquid chromatography-tandem mass spectrometry. We assessed the relationship between exposure and AGD using sex-stratified multivariable linear regression models. Glyphosate and AMPA were detected in 95% and 93% of the samples (median 0.22 ng/mL and 0.14 ng/mL, respectively). Their concentrations were moderately correlated (r = 0.55, p = 5.7 × 10−9). In female infants, high maternal urinary glyphosate (above the median) was associated with longer AGD-AC (β = 1.48, 95%CI (−0.01, 3.0), p = 0.05), but this was not significant after covariate adjustment. Increased AMPA was associated with longer AGD-AF (β = 1.96, 95%CI (0.44, 3.5), p = 0.01) after adjusting for infant size and age at AGD exam. No associations were detected in male offspring. These preliminary findings partially reproduce our previous results in rodents and suggest that glyphosate is a sex-specific endocrine disruptor with androgenic effects in humans. Given the increasing glyphosate exposures in the US population, larger studies should evaluate potential developmental effects on endocrine and reproductive systems. [Display omitted] • Glyphosate-based herbicides are widely used worldwide. • Glyphosate and AMPA detected in >90% of 2nd trimester maternal urine samples. • High maternal glyphosate/AMPA associated with longer female anogenital distance. • Glyphosate could act as a sex-specific endocrine disruptor. [ABSTRACT FROM AUTHOR]

Published
2021
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43. Cardiomyocyte-derived circulating extracellular vesicles allow a non-invasive liquid biopsy of myocardium in health and disease.

Author

Spanos M, Gokulnath P, Li G, Hutchins E, Meechoovet B, Sheng Q, Chatterjee E, Sharma R, Carnel-Amar N, Lin C, Azzam C, Ghaeli I, Amancherla KV, Victorino JF, Garcia-Mansfield K, Pfeffer R, Sahu P, Lindman BR, Elmariah S, Gamazon ER, Betti MJ, Bledsoe X, Lance ML, Absi T, Su YR, Do N, Contreras MG, Varrias D, Kladas M, Radulovic M, Tsiachris D, Spanos A, Tsioufis K, Ellinor PT, Tucker NR, Januzzi JL, Pirrotte P, Jovanovic-Talisman T, Van Keuren-Jensen K, Shah R, and Das S

Abstract

The ability to track disease without tissue biopsy in patients is a major goal in biology and medicine. Here, we identify and characterize cardiomyocyte-derived extracellular vesicles in circulation (EVs; "cardiovesicles") through comprehensive studies of induced pluripotent stem cell-derived cardiomyocytes, genetic mouse models, and state-of-the-art mass spectrometry and low-input transcriptomics. These studies identified two markers ( POPDC2 , CHRNE ) enriched on cardiovesicles for biotinylated antibody-based immunocapture. Captured cardiovesicles were enriched in canonical cardiomyocyte transcripts/pathways with distinct profiles based on human disease type (heart failure, myocardial infarction). In paired myocardial tissue-plasma from patients, highly expressed genes in cardiovesicles were largely cardiac-enriched (vs. "bulk" EVs, which were more organ non-specific) with high expression in myocardial tissue by single nuclear RNA-seq, largely in cardiomyocytes. These results demonstrate the first "liquid" biopsy discovery platform to interrogate cardiomyocyte states noninvasively in model systems and in human disease, allowing non-invasive characterization of cardiomyocyte biology for discovery and therapeutic applications.

Published
2024
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44. Serum metabolomics signatures after an acute bout of combined traditional or high-intensity tactical training in young males and females.

Author

Graham ZA, Pathak KV, Garcia-Mansfield K, Lavin K, Torres A, McAdam J, Broderick T, Pirrotte P, and Bamman M

Abstract

Exercise is a multipotent stimulus that results in large-scale dynamic changes to the systemic molecular profile. Alternative exercise prescriptions and doses would be expected to result in distinct signatures due to differences in duration and intensity. We tested two novel combined endurance and resistance exercise regimens to better understand how differing prescriptions alter the acute metabolomics response at multiple timepoints up to 24h post-exercise. Serum metabolomics for n=37 untrained individuals was analyzed for participants completing traditional combined exercise [TRAD; n = 20 (11M/9F)] or high-intensity tactical training [HITT; n= 17 (9M/8F)] before exercise (pre), and immediately (h0), 3 and 24 h post-exercise (h3 and h24, respectively). We found minimal metabolites had a group by time interaction (2 with FDR < 0.10; 31 with nominal p < 0.05;), but both stimuli resulted in large-scale within-group changes to the circulating metabolome. TRAD consistently had greater numbers of differentially abundant metabolites (FDR < 0.10) as compared to HITT at h0 (431 vs. 333), h3 (435 vs. 331) and h24 (168 vs. 76). The major metabolite classes altered were related to key energy substrates for both groups at h0 (e.g., glucose, pyruvate) and energy replenishment for h3 and h24 (e.g., 12,13 diHOME, palmitylcarnitine, free fatty acids). In summary, our data are the first to describe the acute changes in the circulating metabolome following combined endurance and resistance exercise. Additionally, we show the two distinct doses of combined exercise led to generally similar patterns of responses, with the longer duration TRAD dose resulting in a higher magnitude of change.

Published
2024
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45. Glioblastoma vulnerability to neddylation inhibition is dependent on PTEN status, and dysregulation of the cell cycle and DNA replication.

Author

Taylor B, Tang N, Hao Y, Lee M, Peng S, Bybee R, Hartman L, Garcia-Mansfield K, Sharma R, Pirrotte P, Ma J, Parisian AD, Furnari F, Dhruv HD, and Berens ME

Abstract

Background: Neddylation (NAE) inhibition, affecting posttranslational protein function and turnover, is a promising therapeutic approach to cancer. We report the cytotoxic vulnerability to NAE inhibitors in a subset of glioblastoma (GBM) preclinical models and identify genetic alterations and biological processes underlying differential response., Methods: GBM DNA sequencing and transcriptomic data were queried for genes associated with response to NAE inhibition; candidates were validated by molecular techniques. Multi-omics and functional assays revealed processes implicated in NAE inhibition response., Results: Transcriptomics and shotgun proteomics depict PTEN signaling, DNA replication, and DNA repair pathways as significant differentiators between sensitive and resistant models. Vulnerability to MLN4924, a NAE inhibitor, is associated with elevated S-phase populations, DNA re-replication, and DNA damage. In a panel of GBM models, loss of WT PTEN is associated with resistance to different NAE inhibitors. A NAE inhibition response gene set could segregate the GBM cell lines that are most resistant to MLN4924., Conclusions: Loss of WT PTEN is associated with non-sensitivity to 3 different compounds that inhibit NAE in GBM. A NAE inhibition response gene set largely consisting of DNA replication genes could segregate GBM cell lines most resistant to NAEi and may be the basis for future development of NAE inhibition signatures of vulnerability and clinical trial enrollment within a precision medicine paradigm., Competing Interests: Authors have no financial interests or conflict of interest to disclose., (© The Author(s) 2024. Published by Oxford University Press, the Society for Neuro-Oncology and the European Association of Neuro-Oncology.)

Published
2024
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46. Human placental organoids as a model to probe early gestation maternal immune dynamics.

Author

Slaby EM, Brown E, Becker MW, Hansen N, Sharma R, Pirrotte P, and Weaver JD

Abstract

During pregnancy, the human placenta establishes tolerance toward fetal allogeneic tissue, where specialized trophoblast subtypes play a complex role in local and peripheral immunomodulation. However, due to inadequate models to study the early gestation of the human placenta, each trophoblast subtype's role in modulating the maternal immune response has remained elusive. Here, we derived human placental organoids from early gestation trophoblast stem cells to (1) identify patterns of immunomodulatory protein expression by trophoblast subtype and (2) evaluate the effects of the placental organoid secretome on immune cell activation and regulation. We show that the three primary trophoblast phenotypes had distinct influences on immune cell phenotype and activation and that three-dimensional culture significantly alters trophoblast immunomodulation relative to traditional two-dimensional trophoblast culture.

Published
2024
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47. EGFRvIII Confers Sensitivity to Saracatinib in a STAT5-Dependent Manner in Glioblastoma.

Author

Blomquist MR, Eghlimi R, Beniwal A, Grief D, Nascari DG, Inge L, Sereduk CP, Tuncali S, Roos A, Inforzato H, Sharma R, Pirrotte P, Mehta S, Fortin Ensign SP, Loftus JC, and Tran NL

Subjects
Humans, Animals, Mice, Phosphorylation drug effects, Cell Line, Tumor, Xenograft Model Antitumor Assays, Signal Transduction drug effects, Brain Neoplasms drug therapy, Brain Neoplasms metabolism, Brain Neoplasms pathology, Brain Neoplasms genetics, Apoptosis drug effects, src-Family Kinases metabolism, Tumor Suppressor Proteins, STAT5 Transcription Factor metabolism, Glioblastoma drug therapy, Glioblastoma metabolism, Glioblastoma pathology, Glioblastoma genetics, Quinazolines pharmacology, Quinazolines therapeutic use, Benzodioxoles pharmacology, Benzodioxoles therapeutic use, ErbB Receptors metabolism, Temozolomide pharmacology, Cell Proliferation drug effects
Abstract

Glioblastoma (GBM) is the most common primary malignant brain tumor in adults, with few effective treatments. EGFR alterations, including expression of the truncated variant EGFRvIII, are among the most frequent genomic changes in these tumors. EGFRvIII is known to preferentially signal through STAT5 for oncogenic activation in GBM, yet targeting EGFRvIII has yielded limited clinical success to date. In this study, we employed patient-derived xenograft (PDX) models expressing EGFRvIII to determine the key points of therapeutic vulnerability within the EGFRvIII-STAT5 signaling axis in GBM. Our findings reveal that exogenous expression of paralogs STAT5A and STAT5B augments cell proliferation and that inhibition of STAT5 phosphorylation in vivo improves overall survival in combination with temozolomide (TMZ). STAT5 phosphorylation is independent of JAK1 and JAK2 signaling, instead requiring Src family kinase (SFK) activity. Saracatinib, an SFK inhibitor, attenuates phosphorylation of STAT5 and preferentially sensitizes EGFRvIII+ GBM cells to undergo apoptotic cell death relative to wild-type EGFR. Constitutively active STAT5A or STAT5B mitigates saracatinib sensitivity in EGFRvIII+ cells. In vivo, saracatinib treatment decreased survival in mice bearing EGFR WT tumors compared to the control, yet in EGFRvIII+ tumors, treatment with saracatinib in combination with TMZ preferentially improves survival.

Published
2024
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48. Engineered 3D Hydrogel Matrices to Modulate Trophoblast Stem Cell-Derived Placental Organoid Phenotype.

Author

Slaby EM, Hansen N, Sharma R, Pirrotte P, and Weaver JD

Abstract

Placental organoid models are a promising platform to study human placental development and function. Organoid systems typically use naturally derived hydrogel extracellular matrices (ECM), resulting in batch-to-batch variability that limits experimental reproducibility. As an alternative, synthetic ECM-mimicking hydrogel matrices offer greater consistency and control over environmental cues. Here, we generated trophoblast stem cell-derived placental organoids using poly(ethylene glycol) (PEG) hydrogels with tunable degradability and placenta-derived ECM cues to evaluate trophoblast differentiation relative to Matrigel and two-dimensional (2D) culture controls. Our data demonstrate that PEG hydrogels support trophoblast viability and metabolic function comparable to gold standard Matrigel. Additionally, phenotypic characterization via proteomic analysis revealed that PEG and Matrigel matrices drive syncytiotrophoblast and extravillous trophoblast-dominant placental organoid phenotypes, respectively. Further, three-dimensional (3D) environments promoted greater integrin expression and ECM production than 2D culture. This study demonstrates that engineered 3D culture environments can be used to reliably generate placental organoids and guide trophoblast differentiation.

Published
2024
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49. Changes in proteomic cargo of circulating extracellular vesicles in response to lifestyle intervention in adolescents with hepatic steatosis.

Author

DiStefano JK, Piras IS, Wu X, Sharma R, Garcia-Mansfield K, Willey M, Lovell B, Pirrotte P, Olson ML, and Shaibi GQ

Subjects
Male, Female, Humans, Adolescent, Child, Chromatography, Liquid, Proteins metabolism, Mass Spectrometry, Proteomics methods, Extracellular Vesicles chemistry, Extracellular Vesicles metabolism
Abstract

Background: Recent studies suggest that proteomic cargo of extracellular vesicles (EVs) may play a role in metabolic improvements following lifestyle interventions. However, the relationship between changes in liver fat and circulating EV-derived protein cargo following intervention remains unexplored., Methods: The study cohort comprised 18 Latino adolescents with obesity and hepatic steatosis (12 males/6 females; average age 13.3 ± 1.2 y) who underwent a six-month lifestyle intervention. EV size distribution and concentration were determined by light scattering intensity; EV protein composition was characterized by liquid chromatography tandem-mass spectrometry., Results: Average hepatic fat fraction (HFF) decreased 23% by the end of the intervention (12.5% [5.5] to 9.6% [4.9]; P = 0.0077). Mean EV size was smaller post-intervention compared to baseline (120.2 ± 16.4 nm to 128.4 ± 16.5 nm; P = 0.031), although the difference in mean EV concentration (1.1E+09 ± 4.1E+08 particles/mL to 1.1E+09 ± 1.8E+08 particles/mL; P = 0.656)) remained unchanged. A total of 462 proteins were identified by proteomic analysis of plasma-derived EVs from participants pre- and post-intervention, with 113 proteins showing differential abundance (56 higher and 57 lower) between the two timepoints (adj-p <0.05). Pathway analysis revealed enrichment in complement cascade, initial triggering of complement, creation of C4 and C2 activators, and regulation of complement cascade. Hepatocyte-specific EV affinity purification identified 40 proteins with suggestive (p < 0.05) differential abundance between pre- and post-intervention samples., Conclusions: Circulating EV-derived proteins, particularly those associated with the complement cascade, may contribute to improvements in liver fat in response to lifestyle intervention., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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50. Immunometabolic Adaptation of CD19-Targeted CAR T Cells in the Central Nervous System Microenvironment of Patients Promotes Memory Development.

Author

Goldberg L, Haas ER, Urak R, Vyas V, Pathak KV, Garcia-Mansfield K, Pirrotte P, Singhal J, Figarola JL, Aldoss I, Forman SJ, and Wang X

Subjects
Humans, T-Lymphocytes, Central Nervous System metabolism, Antigens, CD19 metabolism, Receptors, Antigen, T-Cell, Tumor Microenvironment, Immunotherapy, Adoptive, Neoplasms
Abstract

Metabolic reprogramming is a hallmark of T-cell activation, and metabolic fitness is fundamental for T-cell-mediated antitumor immunity. Insights into the metabolic plasticity of chimeric antigen receptor (CAR) T cells in patients could help identify approaches to improve their efficacy in treating cancer. Here, we investigated the spatiotemporal immunometabolic adaptation of CD19-targeted CAR T cells using clinical samples from CAR T-cell-treated patients. Context-dependent immunometabolic adaptation of CAR T cells demonstrated the link between their metabolism, activation, differentiation, function, and local microenvironment. Specifically, compared with the peripheral blood, low lipid availability, high IL15, and low TGFβ in the central nervous system microenvironment promoted immunometabolic adaptation of CAR T cells, including upregulation of a lipolytic signature and memory properties. Pharmacologic inhibition of lipolysis in cerebrospinal fluid led to decreased CAR T-cell survival. Furthermore, manufacturing CAR T cells in cerebrospinal fluid enhanced their metabolic fitness and antileukemic activity. Overall, this study elucidates spatiotemporal immunometabolic rewiring of CAR T cells in patients and demonstrates that these adaptations can be exploited to maximize the therapeutic efficacy of CAR T cells., Significance: The spatiotemporal immunometabolic landscape of CD19-targeted CAR T cells from patients reveals metabolic adaptations in specific microenvironments that can be exploited to maximize the therapeutic efficacy of CAR T cells., (©2024 American Association for Cancer Research.)

Published
2024
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