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1. Mechanism of enhancing chemotherapy efficacy in pancreatic ductal adenocarcinoma with paricalcitol and hydroxychloroquine

Author

Nagaraju, Ganji Purnachandra, Saddala, Madhu Sudhana, Foote, Jeremy B., Khaliq, Ateeq M., Masood, Ashiq, Golivi, Yuvasri, Bandi, Dhana Sekhar Reddy, Sarvesh, Sujith, Reddy, Sudhir Putty, Switchenko, Jeffrey, Carstens, Julienne L., Akce, Mehmet, Herting, Cameron, Alese, Olatunji B., Yoon, Karina J., Manne, Upender, Bhasin, Manoj K., Lesinski, Gregory B., Sukhatme, Vikas P., and El-Rayes, Bassel F.

Published
2025
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4. Comprehensive Genomic Profiling of High-Risk Pediatric Cancer Patients Has a Measurable Impact on Clinical Care

Author

Summers, Ryan J., Castellino, Sharon M., Porter, Christopher C., MacDonald, Tobey J., Basu, Gargi D., Szelinger, Szabolcs, Bhasin, Manoj K., Cash, Thomas, Carter, Alexis B., Castellino, Robert Craig, Fangusaro, Jason R., Mitchell, Sarah G., Pauly, Melinda G., Pencheva, Bojana, Wechsler, Daniel S., Graham, Douglas K., and Goldsmith, Kelly C.

Published
2022
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7. Evidence for a role of the histone deacetylase SIRT6 in DNA damage response of multiple myeloma cells

Author

Cea, Michele, Cagnetta, Antonia, Adamia, Sophia, Acharya, Chirag, Tai, Yu-Tzu, Fulciniti, Mariateresa, Ohguchi, Hiroto, Munshi, Aditya, Acharya, Prakrati, Bhasin, Manoj K., Zhong, Lei, Carrasco, Ruben, Monacelli, Fiammetta, Ballestrero, Alberto, Richardson, Paul, Gobbi, Marco, Lemoli, Roberto M., Munshi, Nikhil, Hideshima, Teru, Nencioni, Alessio, Chauhan, Dharminder, and Anderson, Kenneth C.

Published
2016
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8. Detecting Microbial Dysbiosis Associated with Pediatric Crohn Disease Despite the High Variability of the Gut Microbiota

Author

Wang, Feng, Kaplan, Jess L., Gold, Benjamin D., Bhasin, Manoj K., Ward, Naomi L., Kellermayer, Richard, Kirschner, Barbara S., Heyman, Melvin B., Dowd, Scot E., Cox, Stephen B., Dogan, Haluk, Steven, Blaire, Ferry, George D., Cohen, Stanley A., Baldassano, Robert N., Moran, Christopher J., Garnett, Elizabeth A., Drake, Lauren, Otu, Hasan H., Mirny, Leonid A., Libermann, Towia A., Winter, Harland S., and Korolev, Kirill S.

Published
2016
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11. MSC-Regulated MicroRNAs Converge on the Transcription Factor FOXP2 and Promote Breast Cancer Metastasis

Author

Cuiffo, Benjamin G., Campagne, Antoine, Bell, George W., Lembo, Antonio, Orso, Francesca, Lien, Evan C., Bhasin, Manoj K., Raimo, Monica, Hanson, Summer E., Marusyk, Andriy, El-Ashry, Dorraya, Hematti, Peiman, Polyak, Kornelia, Mechta-Grigoriou, Fatima, Mariani, Odette, Volinia, Stefano, Vincent-Salomon, Anne, Taverna, Daniela, and Karnoub, Antoine E.

Published
2014
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13. Taxane chemotherapy induces stromal injury that leads to breast cancer dormancy escape.

Author

Ganesan, Ramya, Bhasin, Swati S., Bakhtiary, Mojtaba, Krishnan, Upaasana, Cheemarla, Nagarjuna R., Thomas, Beena E., Bhasin, Manoj K., and Sukhatme, Vikas P.

Subjects
GRANULOCYTE-colony stimulating factor, BREAST cancer, DORMANCY in plants, CANCER cell proliferation, CANCER cells, CANCER relapse
Abstract

A major cause of cancer recurrence following chemotherapy is cancer dormancy escape. Taxane-based chemotherapy is standard of care in breast cancer treatment aimed at killing proliferating cancer cells. Here, we demonstrate that docetaxel injures stromal cells, which release protumor cytokines, IL-6 and granulocyte colony stimulating factor (G-CSF), that in turn invoke dormant cancer outgrowth both in vitro and in vivo. Single-cell transcriptomics shows a reprogramming of awakened cancer cells including several survival cues such as stemness, chemoresistance in a tumor stromal organoid (TSO) model, as well as an altered tumor microenvironment (TME) with augmented protumor immune signaling in a syngeneic mouse breast cancer model. IL-6 plays a role in cancer cell proliferation, whereas G-CSF mediates tumor immunosuppression. Pathways and differential expression analyses confirmed MEK as the key regulatory molecule in cancer cell outgrowth and survival. Antibody targeting of protumor cytokines (IL-6, G-CSF) or inhibition of cytokine signaling via MEK/ERK pathway using selumetinib prior to docetaxel treatment prevented cancer dormancy outgrowth suggesting a novel therapeutic strategy to prevent cancer recurrence. Cancer dormancy is a major hindrance to achieving complete clinical response in patients. This study uses a tumor stromal organoid and murine breast cancer model to reveal that chemotherapy injures stromal cells, but not dormant cancer cells directly; this stromal injury in turn invokes proinflammatory cytokine signaling and can awaken dormant cancer cells. [ABSTRACT FROM AUTHOR]

Published
2023
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14. DCUN1D1 Is an Essential Regulator of Prostate Cancer Proliferation and Tumour Growth That Acts through Neddylation of Cullin 1, 3, 4A and 5 and Deregulation of Wnt/Catenin Pathway.

Author

Vava, Akhona, Paccez, Juliano D., Wang, Yihong, Gu, Xuesong, Bhasin, Manoj K., Myers, Michael, Soares, Nelson C., Libermann, Towia A., and Zerbini, Luiz F.

Subjects
PROSTATE cancer, ANDROGEN receptors, UBIQUITIN ligases, WNT genes, UBIQUITINATION, CELL growth, PROTEIN binding
Abstract

Defective in cullin neddylation 1 domain containing 1 (DCUN1D1) is an E3 ligase for the neddylation, a post-translational process similar to and occurring in parallel to ubiquitin proteasome pathway. Although established as an oncogene in a variety of squamous cell carcinomas, the precise role of DCUN1D1 in prostate cancer (PCa) has not been previously explored thoroughly. Here, we investigated the role of DCUN1D1 in PCa and demonstrated that DCUN1D1 is upregulated in cell lines as well as human tissue samples. Inhibition of DCUN1D1 significantly reduced PCa cell proliferation and migration and remarkably inhibited xenograft formation in mice. Applying both genomics and proteomics approaches, we provide novel information about the DCUN1D1 mechanism of action. We identified CUL3, CUL4B, RBX1, CAND1 and RPS19 proteins as DCUN1D1 binding partners. Our analysis also revealed the dysregulation of genes associated with cellular growth and proliferation, developmental, cell death and cancer pathways and the WNT/β-catenin pathway as potential mechanisms. Inhibition of DCUN1D1 leads to the inactivation of β-catenin through its phosphorylation and degradation which inhibits the downstream action of β-catenin, reducing its interaction with Lef1 in the Lef1/TCF complex that regulates Wnt target gene expression. Together our data point to an essential role of the DCUN1D1 protein in PCa which can be explored for potential targeted therapy. [ABSTRACT FROM AUTHOR]

Published
2023
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17. A Transcriptomics-Based Meta-Analysis Combined With Machine Learning Identifies a Secretory Biomarker Panel for Diagnosis of Pancreatic Adenocarcinoma.

Author

Khatri, Indu and Bhasin, Manoj K.

Subjects
BIOMARKERS, MACHINE learning, SUPPORT vector machines, CHRONIC pancreatitis, ADENOCARCINOMA
Abstract

Pancreatic ductal adenocarcinoma (PDAC) is generally incurable due to the late diagnosis and absence of markers that are concordant with expression in several sample sources (i.e., tissue, blood, plasma) and platforms (i.e., Microarray, sequencing). We optimized meta-analysis of 19 PDAC (tissue and blood) transcriptome studies from multiple platforms. The key biomarkers for PDAC diagnosis with secretory potential were identified and validated in different cohorts. Machine learning approach i.e., support vector machine supported by leave-one-out cross-validation was used to build and test the classifier. We identified a 9-gene panel (IFI27, ITGB5, CTSD, EFNA4, GGH, PLBD1, HTATIP2, IL1R2, CTSA) that achieved ∼0.92 average sensitivity and ∼0.90 average specificity in distinguishing PDAC from healthy samples in five training sets using cross-validation. These markers were also validated in proteomics and single-cell transcriptomics studies suggesting their prognostic role in the diagnosis of PDAC. Our 9-gene classifier can not only clearly discriminate between better and poor survivors but can also precisely discriminate PDAC from chronic pancreatitis (AUC = 0.95), early stages of progression [Stage I and II (AUC = 0.82), IPMA and IPMN (AUC = 1), and IPMC (AUC = 0.81)]. The 9-gene marker outperformed the previously known markers in blood studies particularly (AUC = 0.84). The discrimination of PDAC from early precursor lesions in non-malignant tissue (AUC > 0.81) and peripheral blood (AUC > 0.80) may assist in an early diagnosis of PDAC in blood samples and thus will also facilitate risk stratification upon validation in clinical trials. [ABSTRACT FROM AUTHOR]

Published
2020
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18. Specific Transcriptome Changes Associated with Blood Pressure Reduction in Hypertensive Patients After Relaxation Response Training.

Author

Bhasin, Manoj K., Denninger, John W., Huffman, Jeff C., Joseph, Marie G., Niles, Halsey, Chad-Friedman, Emma, Goldman, Roberta, Buczynski-Kelley, Beverly, Mahoney, Barbara A., Fricchione, Gregory L., Dusek, Jeffery A., Benson, Herbert, Zusman, Randall M., and Libermann, Towia A.

Subjects
*HYPERTENSION genetics, *BIOMARKERS, *BLOOD pressure, *CLUSTER analysis (Statistics), *FACTOR analysis, *FISHER exact test, *GENE expression, *HYPERTENSION, *LONGITUDINAL method, *PATH analysis (Statistics), *PROBABILITY theory, *PSYCHOLOGICAL tests, *RELAXATION for health, *RESEARCH funding, *STATISTICAL hypothesis testing, *T-test (Statistics), *GENOMICS, *RELAXATION techniques, *DATA analysis software, *GENE expression profiling
Abstract

Objective: Mind–body practices that elicit the relaxation response (RR) have been demonstrated to reduce blood pressure (BP) in essential hypertension (HTN) and may be an adjunct to antihypertensive drug therapy. However, the molecular mechanisms by which the RR reduces BP remain undefined. Design: Genomic determinants associated with responsiveness to an 8-week RR-based mind–body intervention for lowering HTN in 13 stage 1 hypertensive patients classified as BP responders and 11 as nonresponders were identified. Results: Transcriptome analysis in peripheral blood mononuclear cells identified 1771 genes regulated by the RR in responders. Biological process- and pathway-based analysis of transcriptome data demonstrated enrichment in the following gene categories: immune regulatory pathways and metabolism (among downregulated genes); glucose metabolism, cardiovascular system development, and circadian rhythm (among upregulated genes). Further in silico estimation of cell abundance from the microarray data showed enrichment of the anti-inflammatory M2 subtype of macrophages in BP responders. Nuclear factor-κB, vascular endothelial growth factor, and insulin were critical molecules emerging from interactive network analysis. Conclusions: These findings provide the first insights into the molecular mechanisms that are associated with the beneficial effects of the RR on HTN. [ABSTRACT FROM AUTHOR]

Published
2018
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19. Pentraxin-3 is a PI3K signaling target that promotes stem cell-like traits in basal-like breast cancers.

Author

Thomas, Clémence, Henry, Whitney, Cuiffo, Benjamin G., Collmann, Anthony Y., Marangoni, Elisabetta, Benhamo, Vanessa, Bhasin, Manoj K., Cheng Fan, Fuhrmann, Laetitia, Baldwin, Albert S., Perou, Charles, Vincent-Salomon, Anne, Toker, Alex, and Karnoub, Antoine E.

Subjects
BREAST cancer prognosis, PENTRAXINS, PHOSPHATIDYLINOSITOL 3-kinases, STEM cells, BIOMARKERS, PTEN protein, CELLULAR signal transduction
Abstract

Basal-like breast cancers (BLBCs) exhibit hyperactivation of the phosphoinositide 3-kinase (PI3K) signaling pathway because of the frequent mutational activation of the PIK3CA catalytic subunit and the genetic loss of its negative regulators PTEN (phosphatase and tensin homolog) and INPP4B (inositol polyphosphate-4-phosphatase type II). However, PI3K inhibitors have had limited clinical efficacy in BLBC management because of compensatory amplification of PI3K downstream signaling loops. Therefore, identification of critical PI3K mediators is paramount to the development of effective BLBC therapeutics. Using transcriptomic analysis of activated PIK3CA-expressing BLBC cells, we identified the gene encoding the humoral pattern recognition molecule pentraxin-3 (PTX3) as a critical target of oncogenic PI3K signaling. We found that PTX3 abundance is stimulated, in part, through AKT- and nuclear factor κB (NF-κB)-dependent pathways and that presence of PTX3 is necessary for PI3K-induced stem cell-like traits. We further showed that PTX3 expression is greater in tumor samples from patients with BLBC and that it is prognostic of poor patient survival. Our results thus reveal PTX3 as a newly identified PI3Kregulated biomarker and a potential therapeutic target in BLBC. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Upregulation of inflammatory gene transcripts in periosteum of chronic migraineurs: Implications for extracranial origin of headache.

Author

Perry, Carlton J., Blake, Pamela, Buettner, Catherine, Papavassiliou, Efstathios, Schain, Aaron J., Bhasin, Manoj K., and Burstein, Rami

Subjects
DOPA, CELL receptors, CEPHALOSPORINS, CHRONIC diseases, FASTING, GENE expression, INFLAMMATION, ISOFLURANE, MIGRAINE, PERIOSTEUM, PROTEINS, RESEARCH funding, CASE-control method, GENE expression profiling, PHARMACODYNAMICS
Abstract

Objective: Chronic migraine (CM) is often associated with chronic tenderness of pericranial muscles. A distinct increase in muscle tenderness prior to onset of occipital headache that eventually progresses into a full-blown migraine attack is common. This experience raises the possibility that some CM attacks originate outside the cranium. The objective of this study was to determine whether there are extracranial pathophysiologies in these headaches.Methods: We biopsied and measured the expression of gene transcripts (mRNA) encoding proteins that play roles in immune and inflammatory responses in affected (ie, where the head hurts) calvarial periosteum of (1) patients whose CMs are associated with muscle tenderness and (2) patients with no history of headache.Results: Expression of proinflammatory genes (eg, CCL8, TLR2) in the calvarial periosteum significantly increased in CM patients attesting to muscle tenderness, whereas expression of genes that suppress inflammation and immune cell differentiation (eg, IL10RA, CSF1R) decreased.Interpretation: Because the upregulated genes were linked to activation of white blood cells, production of cytokines, and inhibition of NF-κB, and the downregulated genes were linked to prevention of macrophage activation and cell lysis, we suggest that the molecular environment surrounding periosteal pain fibers is inflamed and in turn activates trigeminovascular nociceptors that reach the affected periosteum through suture branches of intracranial meningeal nociceptors and/or somatic branches of the occipital nerve. This study provides the first set of evidence for localized extracranial pathophysiology in CM. Ann Neurol 2016;79:1000-1013. [ABSTRACT FROM AUTHOR]

Published
2016
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21. Identification of key regulators of pancreatic cancer progression through multidimensional systems-level analysis.

Author

Rajamani, Deepa and Bhasin, Manoj K.

Subjects
*PANCREATIC cancer, *EARLY diagnosis, *PROGNOSIS, *METASTASIS, *DISEASE progression
Abstract

Background: Pancreatic cancer is an aggressive cancer with dismal prognosis, urgently necessitating better biomarkers to improve therapeutic options and early diagnosis. Traditional approaches of biomarker detection that consider only one aspect of the biological continuum like gene expression alone are limited in their scope and lack robustness in identifying the key regulators of the disease. We have adopted a multidimensional approach involving the cross-talk between the omics spaces to identify key regulators of disease progression. Methods: Multidimensional domain-specific disease signatures were obtained using rank-based meta-analysis of individual omics profiles (mRNA, miRNA, DNA methylation) related to pancreatic ductal adenocarcinoma (PDAC). These domain-specific PDAC signatures were integrated to identify genes that were affected across multiple dimensions of omics space in PDAC (genes under multiple regulatory controls, GMCs). To further pin down the regulators of PDAC pathophysiology, a systems-level network was generated from knowledge-based interaction information applied to the above identified GMCs. Key regulators were identified from the GMC network based on network statistics and their functional importance was validated using gene set enrichment analysis and survival analysis. Results: Rank-based meta-analysis identified 5391 genes, 109 miRNAs and 2081 methylation-sites significantly differentially expressed in PDAC (false discovery rate ≤ 0.05). Bimodal integration of meta-analysis signatures revealed 1150 and 715 genes regulated by miRNAs and methylation, respectively. Further analysis identified 189 altered genes that are commonly regulated by miRNA and methylation, hence considered GMCs. Systems-level analysis of the scale-free GMCs network identified eight potential key regulator hubs, namely E2F3, HMGA2, RASA1, IRS1, NUAK1, ACTN1, SKI and DLL1, associated with important pathways driving cancer progression. Survival analysis on individual key regulators revealed that higher expression of IRS1 and DLL1 and lower expression of HMGA2, ACTN1 and SKI were associated with better survival probabilities. Conclusions: It is evident from the results that our hierarchical systems-level multidimensional analysis approach has been successful in isolating the converging regulatory modules and associated key regulatory molecules that are potential biomarkers for pancreatic cancer progression. [ABSTRACT FROM AUTHOR]

Published
2016
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22. SB225002 Induces Cell Death and Cell Cycle Arrest in Acute Lymphoblastic Leukemia Cells through the Activation of GLIPR1.

Author

de Vasconcellos, Jaíra Ferreira, Laranjeira, Angelo Brunelli Albertoni, Leal, Paulo C., Bhasin, Manoj K., Zenatti, Priscila Pini, Nunes, Ricardo J., Yunes, Rosendo A., Nowill, Alexandre E., Libermann, Towia A., Zerbini, Luiz Fernando, and Yunes, José Andrés

Subjects
LYMPHOBLASTIC leukemia in children, CELL death, CELL cycle, CANCER cell physiology, ANTINEOPLASTIC agents, TUBULINS, LEUKEMIA treatment
Abstract

Acute Lymphoblastic Leukemia (ALL) is the most frequent childhood malignancy. In the effort to find new anti-leukemic agents, we evaluated the small drug SB225002 (N-(2-hydroxy-4-nitrophenyl)-N’-(2-bromophenyl)urea). Although initially described as a selective antagonist of CXCR2, later studies have identified other cellular targets for SB225002, with potential medicinal use in cancer. We found that SB225002 has a significant pro-apoptotic effect against both B- and T-ALL cell lines. Cell cycle analysis demonstrated that treatment with SB225002 induces G2-M cell cycle arrest. Transcriptional profiling revealed that SB225002-mediated apoptosis triggered a transcriptional program typical of tubulin binding agents. Network analysis revealed the activation of genes linked to the JUN and p53 pathways and inhibition of genes linked to the TNF pathway. Early cellular effects activated by SB225002 included the up-regulation of GLIPR1, a p53-target gene shown to have pro-apoptotic activities in prostate and bladder cancer. Silencing of GLIPR1 in B- and T-ALL cell lines resulted in increased resistance to SB225002. Although SB225002 promoted ROS increase in ALL cells, antioxidant N-Acetyl Cysteine pre-treatment only modestly attenuated cell death, implying that the pro-apoptotic effects of SB225002 are not exclusively mediated by ROS. Moreover, GLIPR1 silencing resulted in increased ROS levels both in untreated and SB225002-treated cells. In conclusion, SB225002 induces cell cycle arrest and apoptosis in different B- and T-ALL cell lines. Inhibition of tubulin function with concurrent activation of the p53 pathway, in particular, its downstream target GLIPR1, seems to underlie the anti-leukemic effect of SB225002. [ABSTRACT FROM AUTHOR]

Published
2015
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23. Novel non-invasive biomarkers that distinguish between benign prostate hyperplasia and prostate cancer.

Author

Jedinak, Andrej, Curatolo, Adam, Zurakowski, David, Dillon, Simon, Bhasin, Manoj K., Libermann, Towia A., Roy, Roopali, Sachdev, Monisha, Loughlin, Kevin R., and Moses, Marsha A.

Subjects
PROSTATE cancer, BIOMARKERS, HYPERPLASIA, GENE expression, URINALYSIS
Abstract

Background: The objective of this study was to discover and to validate novel noninvasive biomarkers that distinguish between benign prostate hyperplasia (BPH) and localized prostate cancer (PCa), thereby helping to solve the diagnostic dilemma confronting clinicians who treat these patients. Methods: Quantitative iTRAQ LC/LC/MS/MS analysis was used to identify proteins that are differentially expressed in the urine of men with BPH compared with those who have localized PCa. These proteins were validated in 173 urine samples from patients diagnosed with BPH (N = 83) and PCa (N = 90). Multivariate logistic regression analysis was used to identify the predictive biomarkers. Results: Three proteins, β2M, PGA3, and MUC3 were identified by iTRAQ and validated by immunoblot analyses. Univariate analysis demonstrated significant elevations in urinary β2M (P < 0.001), PGA3 (P = 0.006), and MUC3 (P = 0.018) levels found in the urine of PCa patients. Multivariate logistic regression analysis revealed AUC values ranging from 0.618 for MUC3 (P = 0.009), 0.625 for PGA3 (P < 0.008), and 0.668 for β2M (P < 0.001). The combination of all three demonstrated an AUC of 0.710 (95% CI: 0.631 - 0.788, P< 0.001); diagnostic accuracy improved even more when these data were combined with PSA categories (AUC = 0.812, (95% CI: 0.740 - 0.885, P < 0.001). Conclusions: Urinary β2M, PGA3, and MUC3, when analyzed alone or when multiplexed with clinically defined categories of PSA, may be clinically useful in noninvasively resolving the dilemma of effectively discriminating between BPH and localized PCa. [ABSTRACT FROM AUTHOR]

Published
2015
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24. Functional Genomics in the Study of Mind-Body Therapies.

Author

Niles, Halsey, Mehta, Darshan H., Corrigan, Alexandra A., Bhasin, Manoj K., and Denninger, John W.

Subjects
FUNCTIONAL genomics, MIND & body therapies, IMMUNE system, HEALTH promotion, NF-kappa B, GENE expression
Abstract

Background: Mind-body therapies (MBTs) are used throughout the world in treatment, disease prevention, and health promotion. However, the mechanisms by which MBTs exert their positive effects are not well understood. Investigations into MBTs using functional genomics have revolutionized the understanding of MBT mechanisms and their effects on human physiology. Methods: We searched the literature for the effects of MBTs on functional genomics determinants using MEDLINE, supplemented by a manual search of additional journals and a reference list review. Results: We reviewed 15 trials that measured global or targeted transcriptomic, epigenomic, or proteomic changes in peripheral blood. Sample sizes ranged from small pilot studies (n=2) to large trials (n=500). While the reliability of individual genes from trial to trial was often inconsistent, genes related to inflammatory response, particularly those involved in the nuclear factor-kappa B (NF-κB) pathway, were consistently downregulated across most studies. Conclusion: In general, existing trials focusing on gene expression changes brought about by MBTs have revealed intriguing connections to the immune system through the NF-κB cascade, to telomere maintenance, and to apoptotic regulation. However, these findings are limited to a small number of trials and relatively small sample sizes. More rigorous randomized controlled trials of healthy subjects and specific disease states are warranted. Future research should investigate functional genomics areas both upstream and downstream of MBT-related gene expression changes--from epigenomics to proteomics and metabolomics. [ABSTRACT FROM AUTHOR]

Published
2014

25. Analysis of Host Gene Expression Changes Reveals Distinct Roles for the Cytoplasmic Domain of the Epstein-Barr Virus Receptor/CD21 in B-Cell Maturation, Activation, and Initiation of Virus Infection.

Author

Arredouani, Mohamed S., Bhasin, Manoj K., Sage, David R., Dunn, Laura K., Gill, Michael B., Agnani, Deep, Libermann, Towia A., and Fingeroth, Joyce D.

Subjects
*GENE expression, *CYTOPLASM, *EPSTEIN-Barr virus, *B cells, *VIRUS diseases
Abstract

Epstein-Barr virus (EBV) attachment to human CD21 on the B-cell surface initiates infection. Whether CD21 is a simple tether or conveys vital information to the cell interior for production of host factors that promote infection of primary B cells is controversial, as the cytoplasmic fragment of CD21 is short, though highly conserved. The ubiquity of CD21 on normal B cells, the diversity of this population, and the well-known resistance of primary B cells to gene transfer technologies have all impeded resolution of this question. To uncover the role(s) of the CD21 cytoplasmic domain during infection initiation, the full-length receptor (CD21 = CR), a mutant lacking the entire cytoplasmic tail (CT), and a control vector (NEO) were stably expressed in two pre-B-cell lines that lack endogenous receptor. Genome-wide transcriptional analysis demonstrated that stable CD21 surface expression alone (either CR or CT) produced multiple independent changes in gene expression, though both dramatically decreased class I melanoma-associated antigen (MAGE) family RNAs and upregulated genes associated with B-cell differentiation (e.g., C2TA, HLA-II, IL21R, MIC2, CD48, and PTPRCAP/CD45-associated protein). Temporal analysis spanning 72 h revealed that not only CR- but also CT-expressing lines initiated latency. In spite of this, the number and spectrum of transcripts altered in CR- compared with CT-bearing lines at 1 h after infection further diverged. Differential modulation of immediate early cellular transcripts (e.g., c-Jun and multiple histones), both novel and previously linked to CD21-initiated signaling, as well as distinct results from pathway analyses support a separate role for the cytoplasmic domain in initiation of intracellular signals. [ABSTRACT FROM AUTHOR]

Published
2014
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26. Quantitative proteomic analysis in HCV-induced HCC reveals sets of proteins with potential significance for racial disparity.

Author

Dillon, Simon T., Bhasin, Manoj K., Xiaoxing Feng, Koh, David W., and Daoud, Sayed S.

Subjects
*HEPATITIS C virus, *LIVER cancer, *ETHNIC groups, *DISEASES in African Americans, *CAUCASIAN race, *MESSENGER RNA, *TRANSFERRIN, *DISEASES
Abstract

Background: The incidence and mortality of hepatitis C virus (HCV)-induced hepatocellular carcinoma (HCC) is higher in African Americans (AA) than other racial/ethnic groups in the U.S., but the reasons for this disparity are unknown. There is an urgent need for the discovery of novel molecular signatures for HCV disease progression to understand the underlying biological basis for this cancer rate disparity to improve the clinical outcome. Methods: We performed differential proteomics with isobaric labeling tags for relative and absolute quantitation (iTRAQ) and MS/MS analysis to identify proteins differentially expressed in cirrhotic (CIR) and HCC as compared to normal tissues of Caucasian American (CA) patients. The raw data were analyzed using the ProteinPilot v3.0. Searches were performed against all known sequences populating the Swiss-Prot, Refseq, and TrEMBL databases. Quality control analyses were accomplished using pairwise correlation plots, boxplots, principal component analysis, and unsupervised hierarchical clustering. Supervised analysis was carried out to identify differentially expressed proteins. Candidates were validated in independent cohorts of CA and AA tissues by qRT-PCR or Western blotting. Results: A total of 238 unique proteins were identified. Of those, around 15% were differentially expressed between normal, CIR & HCC groups. Target validation demonstrates racially distinct alteration in the expression of certain proteins. For example, the mRNA expression levels of transferrin (TF) were 2 and18-fold higher in CIR and HCC in AA as compared to CA. Similarly; the expression of Apolipoprotein A1 (APOA1) was 7-fold higher in HCC of AA. This increase was mirrored in the protein expression levels. Interestingly, the level of hepatocyte nuclear factor4α (HNF4α) protein was down regulated in AA, whereas repression of transcription is seen more in CA compared to AA. These data suggest that racial disparities in HCC could be a consequence of differential dysregulation of HNF4α transcriptional activity. Conclusion: This study identifies novel molecular signatures in HCV-induced HCC using iTRAQ-based tissue proteomics. The proteins identified will further enhance a molecular explanation to the biochemical mechanism(s) that may play a role in HCC racial disparities. [ABSTRACT FROM AUTHOR]

Published
2013
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27. Relaxation Response Induces Temporal Transcriptome Changes in Energy Metabolism, Insulin Secretion and Inflammatory Pathways

Author

Bhasin, Manoj K., Dusek, Jeffery A., Chang, Bei-Hung, Joseph, Marie G., Denninger, John W., Fricchione, Gregory L., Benson, Herbert, and Libermann, Towia A.

Subjects
*ENERGY metabolism, *INSULIN, *INFLAMMATION, *PHYSIOLOGICAL stress, *CYTOLOGY, *CELLULAR signal transduction, *BIOENERGETICS
Abstract

The relaxation response (RR) is the counterpart of the stress response. Millennia-old practices evoking the RR include meditation, yoga and repetitive prayer. Although RR elicitation is an effective therapeutic intervention that counteracts the adverse clinical effects of stress in disorders including hypertension, anxiety, insomnia and aging, the underlying molecular mechanisms that explain these clinical benefits remain undetermined. To assess rapid time-dependent (temporal) genomic changes during one session of RR practice among healthy practitioners with years of RR practice and also in novices before and after 8 weeks of RR training, we measured the transcriptome in peripheral blood prior to, immediately after, and 15 minutes after listening to an RR-eliciting or a health education CD. Both short-term and long-term practitioners evoked significant temporal gene expression changes with greater significance in the latter as compared to novices. RR practice enhanced expression of genes associated with energy metabolism, mitochondrial function, insulin secretion and telomere maintenance, and reduced expression of genes linked to inflammatory response and stress-related pathways. Interactive network analyses of RR-affected pathways identified mitochondrial ATP synthase and insulin (INS) as top upregulated critical molecules (focus hubs) and NF-κB pathway genes as top downregulated focus hubs. Our results for the first time indicate that RR elicitation, particularly after long-term practice, may evoke its downstream health benefits by improving mitochondrial energy production and utilization and thus promoting mitochondrial resiliency through upregulation of ATPase and insulin function. Mitochondrial resiliency might also be promoted by RR-induced downregulation of NF-κB-associated upstream and downstream targets that mitigates stress. [ABSTRACT FROM AUTHOR]

Published
2013
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28. Pressure-overload hypertrophy of the developing heart reveals activation of divergent gene and protein pathways in the left and right ventricular myocardium.

Author

Friehs, Ingeborg, Cowan, Douglas B., Yeong-Hoon Choi, Black, Kendra M., Barnett, Reanne, Bhasin, Manoj K., Daly, Christian, Dillon, Simon J., Libermann, Towia A., McGowan, Francis X., del Nido, Pedro J., Levitsky, Sidney, and McCully, James D.

Subjects
HEART development, HEART ventricles, PATHOLOGICAL physiology, CARDIAC hypertrophy, PROTEOMICS
Abstract

Right ventricular (RV) and left ventricular (LV) myocardium differ in their pathophysiological response to pressure-overload hypertrophy. In this report we use microarray and proteomic analyses to identify pathways modulated by LV-aortic banding (AOB) and RV-pulmonary artery banding (PAB) in the immature heart. Newborn New Zealand White rabbits underwent banding of the descending thoracic aorta [LV-AOB; n = 6]. RV-PAB was achieved by banding the pulmonary artery (n = 6). Controls (n = 6 each) were sham-manipulated. After 4 (LV-AOB) and 6 (RV-PAB) wk recovery, the hearts were removed and matched RNA and proteins samples were isolated for microarray and proteomic analysis. Microarray and proteomic data demonstrate that in LV-AOB there is increased transcript expression levels for oxidative phosphorylation, mitochondria energy pathways, actin, ILK, hypoxia, calcium, and protein kinase-A signaling and increased protein expression levels of proteins for cellular macromolecular complex assembly and oxidative phosphorylation. In RV-PAB there is also an increased transcript expression levels for cardiac oxidative phosphorylation but increased protein expression levels for structural constituents of muscle, cardiac muscle tissue development, and calcium handling. These results identify divergent transcript and protein expression profiles in LV-AOB and RV-PAB and provide new insight into the biological basis of ventricular specific hypertrophy. The identification of these pathways should allow for the development of specific therapeutic interventions for targeted treatment and amelioration of LV-AOB and RV-PAB to ameliorate morbidity and mortality. [ABSTRACT FROM AUTHOR]

Published
2013
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29. Transcriptional Patterns in Peritoneal Tissue of Encapsulating Peritoneal Sclerosis, a Complication of Chronic Peritoneal Dialysis.

Author

Reimold, Fabian R., Braun, Niko, Zsengellér, Zsuzsanna K., Stillman, Isaac E., Karumanchi, S. Ananth, Toka, Hakan R., Latus, Joerg, Fritz, Peter, Biegger, Dagmar, Segerer, Stephan, Alscher, M. Dominik, Bhasin, Manoj K., and Alper, Seth L.

Subjects
PERITONEAL dialysis, BOWEL obstructions, GENETIC transcription, DENDRITIC cells, B cells, REVERSE transcriptase polymerase chain reaction, CELL proliferation
Abstract

Encapsulating peritoneal sclerosis (EPS) is a devastating complication of peritoneal dialysis (PD), characterized by marked inflammation and severe fibrosis of the peritoneum, and associated with high morbidity and mortality. EPS can occur years after termination of PD and, in severe cases, leads to intestinal obstruction and ileus requiring surgical intervention. Despite ongoing research, the pathogenesis of EPS remains unclear. We performed a global transcriptome analysis of peritoneal tissue specimens from EPS patients, PD patients without EPS, and uremic patients without history of PD or EPS (Uremic). Unsupervised and supervised bioinformatics analysis revealed distinct transcriptional patterns that discriminated these three clinical groups. The analysis identified a signature of 219 genes expressed differentially in EPS as compared to PD and Uremic groups. Canonical pathway analysis of differentially expressed genes showed enrichment in several pathways, including antigen presentation, dendritic cell maturation, B cell development, chemokine signaling and humoral and cellular immunity (P value<0.05). Further interactive network analysis depicted effects of EPS-associated genes on networks linked to inflammation, immunological response, and cell proliferation. Gene expression changes were confirmed by qRT-PCR for a subset of the differentially expressed genes. EPS patient tissues exhibited elevated expression of genes encoding sulfatase1, thrombospondin 1, fibronectin 1 and alpha smooth muscle actin, among many others, while in EPS and PD tissues mRNAs encoding leptin and retinol-binding protein 4 were markedly down-regulated, compared to Uremic group patients. Immunolocalization of Collagen 1 alpha 1 revealed that Col1a1 protein was predominantly expressed in the submesothelial compact zone of EPS patient peritoneal samples, whereas PD patient peritoneal samples exhibited homogenous Col1a1 staining throughout the tissue samples. The results are compatible with the hypothesis that encapsulating peritoneal sclerosis is a distinct pathological process from the simple peritoneal fibrosis that accompanies all PD treatment. [ABSTRACT FROM AUTHOR]

Published
2013
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30. A20 Modulates Lipid Metabolism and Energy Production to Promote Liver Regeneration.

Author

Damrauer, Scott M., Studer, Peter, da Silva, Cleide G., Longo, Christopher R., Ramsey, Haley E., Csizmadia, Eva, Shrikhande, Gautam V., Scali, Salvatore T., Libermann, Towia A., Bhasin, Manoj K., and Ferran, Christiane

Subjects
LIPID metabolism, LIVER regeneration, LIVER transplantation, GENETIC transcription, OXIDOREDUCTASES, CYTOCHROME c
Abstract

Background: Liver Regeneration is clinically of major importance in the setting of liver injury, resection or transplantation. We have demonstrated that the NF-κB inhibitory protein A20 significantly improves recovery of liver function and mass following extended liver resection (LR) in mice. In this study, we explored the Systems Biology modulated by A20 following extended LR in mice. Methodology and Principal Findings: We performed transcriptional profiling using Affymetrix-Mouse 430.2 arrays on liver mRNA retrieved from recombinant adenovirus A20 (rAd.A20) and rAd.bgalactosidase treated livers, before and 24 hours after 78% LR. A20 overexpression impacted 1595 genes that were enriched for biological processes related to inflammatory and immune responses, cellular proliferation, energy production, oxidoreductase activity, and lipid and fatty acid metabolism. These pathways were modulated by A20 in a manner that favored decreased inflammation, heightened proliferation, and optimized metabolic control and energy production. Promoter analysis identified several transcriptional factors that implemented the effects of A20, including NF-κB, CEBPA, OCT-1, OCT-4 and EGR1. Interactive scale-free network analysis captured the key genes that delivered the specific functions of A20. Most of these genes were affected at basal level and after resection. We validated a number of A20's target genes by real-time PCR, including p21, the mitochondrial solute carriers SLC25a10 and SLC25a13, and the fatty acid metabolism regulator, peroxisome proliferator activated receptor alpha. This resulted in greater energy production in A20-expressing livers following LR, as demonstrated by increased enzymatic activity of cytochrome c oxidase, or mitochondrial complex IV. Conclusion: This Systems Biology-based analysis unravels novel mechanisms supporting the pro-regenerative function of A20 in the liver, by optimizing energy production through improved lipid/fatty acid metabolism, and down-regulated inflammation. These findings support pursuit of A20-based therapies to improve patients' outcomes in the context of extreme liver injury and extensive LR for tumor treatment or donation. [ABSTRACT FROM AUTHOR]

Published
2011
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31. Meta-analysis of transcriptome data identifies a novel 5-gene pancreatic adenocarcinoma classifier

Author

Bhasin, Manoj K., Ndebele, Kenneth, Bucur, Octavian, Yee, Eric U., Otu, Hasan H., Plati, Jessica, Bullock, Andrea, Gu, Xuesong, Castan, Eduardo, Zhang, Peng, Najarian, Robert, Muraru, Maria S., Miksad, Rebecca, Khosravi-Far, Roya, and Libermann, Towia A.

Subjects
pancreatic cancer, biomarkers, transcriptome, bioinformatics, meta-analysis
Abstract

Purpose Pancreatic ductal adenocarcinoma (PDAC) is largely incurable due to late diagnosis. Superior early detection biomarkers are critical to improving PDAC survival and risk stratification. Experimental Design Optimized meta-analysis of PDAC transcriptome datasets identified and validated key PDAC biomarkers. PDAC-specific expression of a 5-gene biomarker panel was measured by qRT-PCR in microdissected patient-derived FFPE tissues. Cell-based assays assessed impact of two of these biomarkers, TMPRSS4 and ECT2, on PDAC cells. Results: A 5-gene PDAC classifier (TMPRSS4, AHNAK2, POSTN, ECT2, SERPINB5) achieved on average 95% sensitivity and 89% specificity in discriminating PDAC from non-tumor samples in four training sets and similar performance (sensitivity = 94%, specificity = 89.6%) in five independent validation datasets. This classifier accurately discriminated PDAC from chronic pancreatitis (AUC = 0.83), other cancers (AUC = 0.89), and non-tumor from PDAC precursors (AUC = 0.92) in three independent datasets. Importantly, the classifier distinguished PanIN from healthy pancreas in the PDX1-Cre;LSL-KrasG12D PDAC mouse model. Discriminatory expression of the PDAC classifier genes was confirmed in microdissected FFPE samples of PDAC and matched surrounding non-tumor pancreas or pancreatitis. Notably, knock-down of TMPRSS4 and ECT2 reduced PDAC soft agar growth and cell viability and TMPRSS4 knockdown also blocked PDAC migration and invasion. Conclusions: This study identified and validated a highly accurate 5-gene PDAC classifier for discriminating PDAC and early precursor lesions from non-malignant tissue that may facilitate early diagnosis and risk stratification upon validation in prospective clinical trials. Cell-based experiments of two overexpressed proteins encoded by the panel, TMPRSS4 and ECT2, suggest a causal link to PDAC development and progression, confirming them as potential therapeutic targets.

Published
2016
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32. Temporal retinal transcriptome and systems biology analysis identifies key pathways and hub genes in Staphylococcus aureus endophthalmitis

Author

Rajamani, Deepa, Singh, Pawan Kumar, Rottmann, Bruce G., Singh, Natasha, Bhasin, Manoj K., and Kumar, Ashok

Abstract

Bacterial endophthalmitis remains a devastating inflammatory condition associated with permanent vision loss. Hence, assessing the host response in this disease may provide new targets for intervention. Using a mouse model of Staphylococcus aureus (SA) endophthalmitis and performing retinal transcriptome analysis, we discovered progressive changes in the expression of 1,234 genes. Gene ontology (GO) and pathway analyses revealed the major pathways impacted in endophthalmitis includes: metabolism, inflammatory/immune, antimicrobial, cell trafficking, and lipid biosynthesis. Among the immune/inflammation pathways, JAK/Stat and IL-17A signaling were the most significantly affected. Interactive network-based analyses identified 13 focus hub genes (IL-6, IL-1β, CXCL2, STAT3, NUPR1, Jun, CSF1, CYR61, CEBPB, IGF-1, EGFR1, SPP1, and TGM2) within these important pathways. The expression of hub genes confirmed by qRT-PCR, ELISA (IL-6, IL-1β, and CXCL2), and Western blot or immunostaining (CEBP, STAT3, NUPR1, and IGF1) showed strong correlation with transcriptome data. Since TLR2 plays an important role in SA endophthalmitis, counter regulation analysis of TLR2 ligand pretreated retina or the use of retinas from TLR2 knockout mice showed the down-regulation of inflammatory regulatory genes. Collectively, our study provides, for the first time, a comprehensive analysis of the transcriptomic response and identifies key pathways regulating retinal innate responses in staphylococcal endophthalmitis.

Published
2016
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33. Inhibition of ALK1 signaling with dalantercept combined with VEGFR TKI leads to tumor stasis in renal cell carcinoma

Author

Wang, Xiaoen, Solban, Nicolas, Khanna, Prateek, Callea, Marcella, Song, Jiaxi, Alsop, David C., Pearsall, R. Scott, Atkins, Michael B., Mier, James W., Signoretti, Sabina, Alimzhanov, Marat, Kumar, Ravi, Bhasin, Manoj K., and Bhatt, Rupal S.

Subjects
renal cell carcinoma, anti-angiogenic therapy, ALK-1, VEGF, dalantercept
Abstract

Treatment of metastatic renal cell carcinoma (mRCC) with agents that block signaling through vascular endothelial growth factor receptor 2 (VEGFR2) induces disease regression or stabilization in some patients; however, these responses tend to be short-lived. Therefore, development of combination therapies that can extend the efficacy of VEGFR antagonists in mRCC remains a priority. We studied murine xenograft models of RCC that become refractory to treatment with the VEGFR tyrosine kinase inhibitor (TKI) sunitinib. Dalantercept is a novel antagonist of Activin receptor-like kinase 1 (ALK1)/Bone morphogenetic protein (BMP) 9 signaling. Dalantercept inhibited growth in the murine A498 xenograft model which correlated with hyperdilation of the tumor vasculature and an increase in tumor hypoxia. When combined with sunitinib, dalantercept induced tumor necrosis and prevented tumor regrowth and revascularization typically seen with sunitinib monotherapy in two RCC models. Combination therapy led to significant downregulation of angiogenic genes as well as downregulation of endothelial specific gene expression particularly of the Notch signaling pathway. We demonstrate that simultaneous targeting of molecules that control distinct phases of angiogenesis, such as ALK1 and VEGFR, is a valid strategy for treatment of mRCC. At the molecular level, combination therapy leads to downregulation of Notch signaling.

Published
2016
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34. Bench-to-bedside review: Future novel diagnostics for sepsis - a systems biology approach

Author

Skibsted, Simon, Bhasin, Manoj K, Aird, William C, and Shapiro, Nathan I

Abstract

The early, accurate diagnosis and risk stratification of sepsis remains an important challenge in the critically ill. Since traditional biomarker strategies have not yielded a gold standard marker for sepsis, focus is shifting towards novel strategies that improve assessment capabilities. The combination of technological advancements and information generated through the human genome project positions systems biology at the forefront of biomarker discovery. While previously available, developments in the technologies focusing on DNA, gene expression, gene regulatory mechanisms, protein and metabolite discovery have made these tools more feasible to implement and less costly, and they have taken on an enhanced capacity such that they are ripe for utilization as tools to advance our knowledge and clinical research. Medicine is in a genome-level era that can leverage the assessment of thousands of molecular signals beyond simply measuring selected circulating proteins. Genomics is the study of the entire complement of genetic material of an individual. Epigenetics is the regulation of gene activity by reversible modifications of the DNA. Transcriptomics is the quantification of the relative levels of messenger RNA for a large number of genes in specific cells or tissues to measure differences in the expression levels of different genes, and the utilization of patterns of differential gene expression to characterize different biological states of a tissue. Proteomics is the large-scale study of proteins. Metabolomics is the study of the small molecule profiles that are the terminal downstream products of the genome and consists of the total complement of all low-molecular-weight molecules that cellular processes leave behind. Taken together, these individual fields of study may be linked during a systems biology approach. There remains a valuable opportunity to deploy these technologies further in human research. The techniques described in this paper not only have the potential to increase the spectrum of diagnostic and prognostic biomarkers in sepsis, but they may also enable the discovery of new disease pathways. This may in turn lead us to improved therapeutic targets. The objective of this paper is to provide an overview and basic framework for clinicians and clinical researchers to better understand the 'omics technologies' to enhance further use of these valuable tools.

Published
2013
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35. Preliminary Biomarkers for Identification of Human Ascending Thoracic Aortic Aneurysm

Author

Black, Kendra M., Masuzawa, Akihiro, Hagberg, Robert C., Khabbaz, Kamal R., Trovato, Mary E., Rettagliati, Verna M., Bhasin, Manoj K., Dillon, Simon T., Libermann, Towia A., Toumpoulis, Ioannis K., Levitsky, Sidney, and McCully, James D.

Subjects
Vascular Medicine, ascending thoracic aortic aneurysm, collagen, FHL1
Abstract

Background: Human ascending thoracic aortic aneurysms (ATAAs) are life threatening and constitute a leading cause of mortality in the United States. Previously, we demonstrated that collagens α2(V) and α1(XI) mRNA and protein expression levels are significantly increased in ATAAs. Methods and Results: In this report, the authors extended these preliminary studies using high‐throughput proteomic analysis to identify additional biomarkers for use in whole blood real‐time RT‐PCR analysis to allow for the identification of ATAAs before dissection or rupture. Human ATAA samples were obtained from male and female patients aged 65±14 years. Both bicuspid and tricuspid aortic valve patients were included and compared with nonaneurysmal aortas (mean diameter 2.3 cm). Five biomarkers were identified as being suitable for detection and identification of ATAAs using qRT‐PCR analysis of whole blood. Analysis of 41 samples (19 small, 13 medium‐sized, and 9 large ATAAs) demonstrated the overexpression of 3 of these transcript biomarkers correctly identified 79.4% of patients with ATAA of ≥4.0 cm (P<0.001, sensitivity 0.79, CI=0.62 to 0.91; specificity 1.00, 95% CI=0.42 to 1.00). Conclusion: A preliminary transcript biomarker panel for the identification of ATAAs using whole blood qRT‐PCR analysis in men and women is presented.

Published
2013
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36. A20 Modulates Lipid Metabolism and Energy Production to Promote Liver Regeneration

Author

Studer, Peter, Longo, Christopher R., Csizmadia, Eva, Shrikhande, Gautam V., Scali, Salvatore T., Bhasin, Manoj K., Selvarajoo, Kumar, Damrauer, Scott Michael, Da Silva, Cleide Gonsalves, Ramsey, Haley Elizabeth, Libermann, Towia Aron, and Ferran, Christiane

Abstract

Background: Liver Regeneration is clinically of major importance in the setting of liver injury, resection or transplantation. We have demonstrated that the NF-\(\kappa\)B inhibitory protein A20 significantly improves recovery of liver function and mass following extended liver resection (LR) in mice. In this study, we explored the Systems Biology modulated by A20 following extended LR in mice. Methodology and Principal Findings: We performed transcriptional profiling using Affymetrix-Mouse 430.2 arrays on liver mRNA retrieved from recombinant adenovirus A20 (rAd.A20) and rAd.\(\beta\)galactosidase treated livers, before and 24 hours after 78% LR. A20 overexpression impacted 1595 genes that were enriched for biological processes related to inflammatory and immune responses, cellular proliferation, energy production, oxidoreductase activity, and lipid and fatty acid metabolism. These pathways were modulated by A20 in a manner that favored decreased inflammation, heightened proliferation, and optimized metabolic control and energy production. Promoter analysis identified several transcriptional factors that implemented the effects of A20, including NF-\(\kappa\)B, CEBPA, OCT-1, OCT-4 and EGR1. Interactive scale-free network analysis captured the key genes that delivered the specific functions of A20. Most of these genes were affected at basal level and after resection. We validated a number of A20's target genes by real-time PCR, including p21, the mitochondrial solute carriers SLC25a10 and SLC25a13, and the fatty acid metabolism regulator, peroxisome proliferator activated receptor alpha. This resulted in greater energy production in A20-expressing livers following LR, as demonstrated by increased enzymatic activity of cytochrome c oxidase, or mitochondrial complex IV. Conclusion: This Systems Biology-based analysis unravels novel mechanisms supporting the pro-regenerative function of A20 in the liver, by optimizing energy production through improved lipid/fatty acid metabolism, and down-regulated inflammation. These findings support pursuit of A20-based therapies to improve patients' outcomes in the context of extreme liver injury and extensive LR for tumor treatment or donation.

Published
2011
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37. The KDM3A-KLF2-IRF4 axis maintains myeloma cell survival.

Author

Ohguchi, Hiroto, Hideshima, Teru, Bhasin, Manoj K., Gorgun, Gullu T., Santo, Loredana, Cea, Michele, Samur, Mehmet K., Mimura, Naoya, Suzuki, Rikio, Tai, Yu-Tzu, Carrasco, Ruben D., Raje, Noopur, Richardson, Paul G., Munshi, Nikhil C., Harigae, Hideo, Sanda, Takaomi, Sakai, Juro, and Anderson, Kenneth C.

Published
2016
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38. A Distinct Treg Transcriptome Signature in HIV-1 Elite Controllers Might Contribute to Improved Disease Outcome.

Author

Angin, Mathieu, Müller, Christian, Sharma, Siddharta, Bhasin, Manoj K., Zhuang, Yan, and Addo, Marylyn M.

Abstract

An abstract of the article "A Distinct Treg Transcriptome Signature in HIV-1 Elite Controllers Might Contribute to Improved Disease Outcome" by Christine Dahlke, Mathieu Angin, Siddharta Sharma and colleagues is presented.

Published
2014
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