Your search keyword '"Nehme El-Hachem"' showing total 90 results

1. Local delivery of accutox® synergises with immune-checkpoint inhibitors at disrupting tumor growth

Author

Jean Pierre Bikorimana, Nehme El-Hachem, Jamilah Abusarah, Marina Pereira Gonçalves, Roudy Farah, Gabrielle A. Mandl, Sebastien Talbot, Simon Beaudoin, Daniela Stanga, Sebastien Plouffe, and Moutih Rafei

Subjects

AccuTOX®, Cancer immunotherapy, Immunogenic cell death, Reactive oxygen species, Endosomal escape, Antigen presentation, Medicine

Abstract

Abstract Background The Accum® platform was initially designed to accumulate biomedicines in target cells by inducing endosomal-to-cytosol escape. Interestingly however, the use of unconjugated Accum® was observed to trigger cell death in a variety of cancer cell lines; a property further exploited in the development of Accum®-based anti-cancer therapies. Despite the impressive pro-killing abilities of the parent molecule, some cancer cell lines exhibited resistance. This prompted us to test additional Accum® variants, which led to the identification of the AccuTOX® molecule. Methods A series of flow-cytometry and cell-based assays were used to assess the pro-killing properties of AccuTOX® along with its ability to trigger the production of reactive oxygen species (ROS), endosomal breaks and antigen presentation. RNA-seq was also conducted to pinpoint the most prominent processes modulated by AccuTOX® treatment in EL4 T-cell lymphoma. Finally, the therapeutic potency of intratumorally-injected AccuTOX® was evaluated in three different murine solid tumor models (EL4, E0771 and B16) both as a monotherapy or in combination with three immune-checkpoint inhibitors (ICI). Results In total, 7 Accum® variants were screened for their ability to induce complete cell death in 3 murine (EL4, B16 and E0771) and 3 human (MBA-MD-468, A549, and H460) cancer cell lines of different origins. The selected compound (hereafter refereed to as AccuTOX®) displayed an improved killing efficiency (~ 5.5 fold compared to the parental Accum®), while retaining its ability to trigger immunogenic cell death, ROS production, and endosomal breaks. Moreover, transcriptomic analysis revealed that low dose AccuTOX® enhances H2-Kb cell surface expression as well as antigen presentation in cancer cells. The net outcome culminates in impaired T-cell lymphoma, breast cancer and melanoma growth in vivo especially when combined with anti-CD47, anti-CTLA-4 or anti-PD-1 depending on the animal model. Conclusions AccuTOX® exhibits enhanced cancer killing properties, retains all the innate characteristics displayed by the parental Accum® molecule, and synergizes with various ICI in controlling tumor growth. These observations will certainly pave the path to continue the clinical development of this lead compound against multiple solid tumor indications. Graphical Abstract

Published

2024

2. A1-reprogrammed mesenchymal stromal cells prime potent antitumoral responses

Author

Marina Pereira Gonçalves, Roudy Farah, Jean-Pierre Bikorimana, Jamilah Abusarah, Nehme EL-Hachem, Wael Saad, Sebastien Talbot, Daniela Stanga, Simon Beaudoin, Sebastien Plouffe, and Moutih Rafei

Subjects

Classification Description, Immunology, Pharmaceutical engineering, Cancer, Science

Abstract

Summary: Mesenchymal stromal cells (MSCs) have been modified via genetic or pharmacological engineering into potent antigen-presenting cells-like capable of priming responding CD8 T cells. In this study, our screening of a variant library of Accum molecule revealed a molecule (A1) capable of eliciting antigen cross-presentation properties in MSCs. A1-reprogrammed MSCs (ARM) exhibited improved soluble antigen uptake and processing. Our comprehensive analysis, encompassing cross-presentation assays and molecular profiling, among other cellular investigations, elucidated A1’s impact on endosomal escape, reactive oxygen species production, and cytokine secretion. By evaluating ARM-based cellular vaccine in mouse models of lymphoma and melanoma, we observe significant therapeutic potency, particularly in allogeneic setting and in combination with anti-PD-1 immune checkpoint inhibitor. Overall, this study introduces a strong target for developing an antigen-adaptable vaccination platform, capable of synergizing with immune checkpoint blockers to trigger tumor regression, supporting further investigation of ARMs as an effective and versatile anti-cancer vaccine.

Published

2024

3. UM171A-induced ROS promote antigen cross-presentation of immunogenic peptides by bone marrow-derived mesenchymal stromal cells

Author

Natasha Salame, Jean-Pierre Bikorimana, Nehme El-Hachem, Wael Saad, Mazen Kurdi, Jing Zhao, Nicoletta Eliopoulos, Riam Shammaa, and Moutih Rafei

Subjects

Mesenchymal stromal cells, Antigen cross-presentation, UM171a, Reactive oxygen species, PSMB8, Electron transport chain, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Mesenchymal stromal cells (MSCs) have been extensively used in the clinic due to their exquisite tissue repair capacity. However, they also hold promise in the field of cellular vaccination as they can behave as conditional antigen presenting cells in response to interferon (IFN)-gamma treatment under a specific treatment regimen. This suggests that the immune function of MSCs can be pharmacologically modulated. Given the capacity of the agonist pyrimido-indole derivative UM171a to trigger the expression of various antigen presentation-related genes in human hematopoietic progenitor cells, we explored the potential use of UM171a as a means to pharmacologically instill and/or promote antigen presentation by MSCs. Methods Besides completing a series of flow-cytometry-based phenotypic analyses, several functional antigen presentation assays were conducted using the SIINFEKL-specific T-cell clone B3Z. Anti-oxidants and electron transport chain inhibitors were also used to decipher UM171a’s mode of action in MSCs. Finally, the potency of UM171a-treated MSCs was evaluated in the context of therapeutic vaccination using immunocompetent C57BL/6 mice with pre-established syngeneic EG.7T-cell lymphoma. Results Treatment of MSCs with UM171a triggered potent increase in H2-Kb cell surface levels along with the acquisition of antigen cross-presentation abilities. Mechanistically, such effects occurred in response to UM171a-mediated production of mitochondrial-derived reactive oxygen species as their neutralization using anti-oxidants or Antimycin-A mitigated MSCs’ ability to cross-present antigens. Processing and presentation of the immunogenic ovalbumin-derived SIINFEKL peptide was caused by de novo expression of the Psmb8 gene in response to UM171a-triggered oxidative stress. When evaluated for their anti-tumoral properties in the context of therapeutic vaccination, UM171a-treated MSC administration to immunocompetent mice with pre-established T-cell lymphoma controlled tumor growth resulting in 40% survival without the need of additional supportive therapy and/or standard-of-care. Conclusions Altogether, our findings reveal a new immune-related function for UM171a and clearly allude to a direct link between UM171a-mediated ROS induction and antigen cross-presentation by MSCs. The fact that UM171a treatment modulates MSCs to become antigen-presenting cells without the use of IFN-gamma opens-up a new line of investigation to search for additional agents capable of converting immune-suppressive MSCs to a cellular tool easily adaptable to vaccination. Graphical abstract

Published

2022

4. The CIt protocol: A blueprint to potentiate the immunogenicity of immunoproteasome-reprogrammed mesenchymal stromal cells

Author

Jean-Pierre Bikorimana, Nehme El-Hachem, Jamilah Abusarah, Nicoletta Eliopoulos, Sebastien Talbot, Riam Shammaa, and Moutih Rafei

Subjects

Immunology, Immune response, Cancer, Science

Abstract

Summary: Immunoproteasome-reprogrammed mesenchymal stromal cells (IRMs) can surpass dendritic cells at eliciting tumor-specific immunity. However, the current IRM vaccination regimen remains clinically unsuitable due to the relatively high dose of IRMs needed. Since the administration of a lower IRM dose triggers a feeble anti-tumoral response, we aimed to combine this vaccination regimen with different modalities to fine-tune the potency of the vaccine. In a nutshell, we found that the co-administration of IRMs and interleukin-12 accentuates the anti-tumoral response, whereas the cross-presentation potency of IRMs is enhanced via intracellular succinate build-up, delayed endosomal maturation, and increased endosome-to-cytosol plasticity. Stimulating phagocyte-mediated cancer efferocytosis by blocking the CD47-SIRPα axis was also found to enhance IRM vaccine outcomes. Upon designing a single protocol combining the abovementioned strategies, 60% of treated animals exhibited a complete response. Altogether, this is the first IRM-based vaccination study, optimized to simultaneously target three vaccine-related pitfalls: T-cell response, antigen cross-presentation, and cancer phagocytosis.

Published

2022

5. Recent Advances in Cancer Drug Discovery Through the Use of Phenotypic Reporter Systems, Connectivity Mapping, and Pooled CRISPR Screening

Author

Natasha Salame, Katharine Fooks, Nehme El-Hachem, Jean-Pierre Bikorimana, François E. Mercier, and Moutih Rafei

Subjects

HTS screening, fluorescence-based assay, immunomodulatory compounds, anti-cancer therapeutics, transcriptomics, CRISPR-Cas9, Therapeutics. Pharmacology, RM1-950

Abstract

Multi-omic approaches offer an unprecedented overview of the development, plasticity, and resistance of cancer. However, the translation from anti-cancer compounds identified in vitro to clinically active drugs have a notoriously low success rate. Here, we review how technical advances in cell culture, robotics, computational biology, and development of reporter systems have transformed drug discovery, enabling screening approaches tailored to clinically relevant functional readouts (e.g., bypassing drug resistance). Illustrating with selected examples of “success stories,” we describe the process of phenotype-based high-throughput drug screening to target malignant cells or the immune system. Second, we describe computational approaches that link transcriptomic profiling of cancers with existing pharmaceutical compounds to accelerate drug repurposing. Finally, we review how CRISPR-based screening can be applied for the discovery of mechanisms of drug resistance and sensitization. Overall, we explore how the complementary strengths of each of these approaches allow them to transform the paradigm of pre-clinical drug development.

Published

2022

6. gem-Difluorobisarylic derivatives: design, synthesis and anti-inflammatory effect

Author

Abeer J. Ayoub, Layal Hariss, Nehme El-Hachem, Ghewa A. El-Achkar, Sandra E. Ghayad, Oula K. Dagher, Nada Borghol, René Grée, Bassam Badran, Ali Hachem, Eva Hamade, and Aida Habib

Subjects

Fluorine, Diaryl ethers, Macrophages, Cyclooxygenase, Inflammation, Chemistry, QD1-999

Abstract

Abstract Introduction New fluorinated diaryl ethers and bisarylic ketones were designed and evaluated for their anti-inflammatory effects in primary macrophages. Methods The synthesis of the designed molecules started from easily accessible and versatile gem-difluoro propargylic derivatives. The desired aromatic systems were obtained using Diels–Alder/aromatization sequences and this was followed by Pd-catalyzed coupling reactions and, when required, final functionalization steps. Both direct inhibitory effects on cyclooxygenase-1 or -2 activities, protein expression of cyclooxygenase-2 and nitric oxide synthase-II and the production of prostaglandin E2, the pro-inflammatory nitric oxide and interleukin-6 were evaluated in primary murine bone marrow-derived macrophages in response to lipopolysaccharide. Docking of the designed molecules in cyclooxygenase-1 or -2 was performed. Results Only fluorinated compounds exerted anti-inflammatory activities by lowering the secretion of interleukin-6, nitric oxide, and prostaglandin E2, and decreasing the protein expression of inducible nitric oxide synthase and cyclooxygenase-2 in mouse primary macrophages exposed to lipopolysaccharide, as well as cyclooxygenase activity for some inhibitors with different efficiencies depending on the R-groups. Docking observation suggested an inhibitory role of cyclooxygenase-1 or -2 for compounds A3, A4 and A5 in addition to their capacity to inhibit nitrite, interleukin-6, and nitric oxide synthase-II and cyclooxygenase-2 expression. Conclusion The new fluorinated diaryl ethers and bisarylic ketones have anti-inflammatory effects in macrophages. These fluorinated compounds have improved potential anti-inflammatory properties due to the fluorine residues in the bioactive molecules.

Published

2019

7. LSD1 Inhibition Enhances the Immunogenicity of Mesenchymal Stromal Cells by Eliciting a dsRNA Stress Response

Author

Fatemeh Mardani, Wael Saad, Nehme El-Hachem, Jean-Pierre Bikorimana, Mazen Kurdi, Riam Shammaa, Sebastien Talbot, and Moutih Rafei

Subjects

mesenchymal stromal cells, antigen presentation, LSD1, tranylcypromine, UM171a, dsRNA, Cytology, QH573-671

Abstract

Mesenchymal stromal cells (MSCs) are commonly known for their immune-suppressive abilities. However, our group provided evidence that it is possible to convert MSCs into potent antigen presenting cells (APCs) using either genetic engineering or pharmacological means. Given the capacity of UM171a to trigger APC-like function in MSCs, and the recent finding that this drug may modulate the epigenome by inhibiting the lysine-specific demethylase 1 (LSD1), we explored whether the direct pharmacological inhibition of LSD1 could instill APC-like functions in MSCs akin to UM171a. The treatment of MSCs with the LSD1 inhibitor tranylcypromine (TC) elicits a double-stranded (ds)RNA stress response along with its associated responsive elements, including pattern recognition receptors (PRRs), Type-I interferon (IFN), and IFN-stimulated genes (ISGs). The net outcome culminates in the enhanced expression of H2-Kb, and an increased stability of the cell surface peptide: MHCI complexes. As a result, TC-treated MSCs stimulate CD8 T-cell activation efficiently, and elicit potent anti-tumoral responses against the EG.7 T-cell lymphoma in the context of prophylactic vaccination. Altogether, our findings reveal a new pharmacological protocol whereby targeting LSD1 in MSCs elicits APC-like capabilities that could be easily exploited in the design of future MSC-based anti-cancer vaccines.

Published

2022

8. Thymoproteasome-Expressing Mesenchymal Stromal Cells Confer Protective Anti-Tumor Immunity via Cross-Priming of Endogenous Dendritic Cells

Author

Jean-Pierre Bikorimana, Nehme El-Hachem, Abed El-Hakim El-Kadiry, Jamilah Abusarah, Natasha Salame, Riam Shammaa, and Moutih Rafei

Subjects

mesenchymal stromal cell, thymoproteasome, cancer vaccine, antigen cross-presentation, cross-priming, efferocytosis, Immunologic diseases. Allergy, RC581-607

Abstract

Proteasomes are complex macromolecular structures existing in various forms to regulate a myriad of cellular processes. Besides degrading unwanted or misfolded proteins (proteostasis), distinct immune functions were ascribed for the immunoproteasome and thymoproteasome (TPr) complexes. For instance, antigen degradation during ongoing immune responses mainly relies on immunoproteasome activity, whereas intrathymic CD8 T-cell development requires peptide generation by the TPr complex. Despite these substantial differences, the functional contribution of the TPr to peripheral T-cell immunity remains ill-defined. We herein explored whether the use of mesenchymal stromal cells (MSCs) engineered to exhibit altered proteasomal activity through de novo expression of the TPr complex can be exploited as a novel anti-cancer vaccine capable of triggering potent CD8 T-cell activation. Phenotypic and molecular characterization of MSC-TPr revealed a substantial decrease in MHCI (H2-Kb and H2-Dd) expression along with elevated secretion of various chemokines (CCL2, CCL9, CXCL1, LIX, and CX3CL1). In parallel, transcriptomic analysis pinpointed the limited ability of MSC-TPr to present endogenous antigens, which is consistent with their low expression levels of the peptide-loading proteins TAP, CALR, and PDAI3. Nevertheless, MSC-TPr cross-presented peptides derived from captured soluble proteins. When tested for their protective capacity, MSC-TPr triggered modest anti-tumoral responses despite efficient generation of effector memory CD4 and CD8 T cells. In contrast, clodronate administration prior to vaccination dramatically enhanced the MSC-TPr-induced anti-tumoral immunity clearly highlighting a refractory role mediated by phagocytic cells. Thus, our data elute to a DC cross-priming-dependant pathway in mediating the therapeutic effect of MSC-TPr.

Published

2021

9. Integrative Transcriptome Analyses Empower the Anti-COVID-19 Drug Arsenal

Author

Nehme El-Hachem, Edward Eid, Georges Nemer, Ghassan Dbaibo, Ossama Abbas, Nelly Rubeiz, Salah Zeineldine, Ghassan M. Matar, Jean-Pierre Bikorimana, Riam Shammaa, Benjamin Haibe-Kains, Mazen Kurban, and Moutih Rafei

Subjects

Virology, Bioinformatics, Systems Biology, Science

Abstract

Summary: The beginning of the 21st century has been marked by three distinct waves of zoonotic coronavirus outbreaks into the human population. The COVID-19 (coronavirus disease 2019) pandemic is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and emerged as a global threat endangering the livelihoods of millions worldwide. Currently, and despite collaborative efforts, diverse therapeutic strategies from ongoing clinical trials are still debated. To address the need for such an immediate call of action, we leveraged the largest dataset of drug-induced transcriptomic perturbations, public SARS-CoV-2 transcriptomic datasets, and expression profiles from normal lung transcriptomes. Most importantly, our unbiased systems biology approach prioritized more than 50 repurposable drug candidates (e.g., corticosteroids, Janus kinase and Bruton kinase inhibitors). Further clinical investigation of these FDA-approved candidates as monotherapy or in combination with an antiviral regimen (e.g., remdesivir) could lead to promising outcomes in patients with COVID-19.

Published

2020

10. A Novel Sulfonyl-Based Small Molecule Exhibiting Anti-cancer Properties

Author

Abed El-Hakim El-Kadiry, Jamilah Abusarah, Yun Emma Cui, Nehme El-Hachem, Ian Hammond-Martel, Hugo Wurtele, Sini Thomas, Maryam Ahmadi, Mohammad Balood, Sébastien Talbot, and Moutih Rafei

Subjects

HTS, small molecule, sulfonyl compound, T cells, cancer, apoptosis, Therapeutics. Pharmacology, RM1-950

Abstract

Phenotypic screening is an ideal strategy for the discovery of novel bioactive molecules. Using a customized high-throughput screening (HTS) assay employing primary T lymphocytes, we screened a small library of 4,398 compounds with unknown biological function/target to identify compounds eliciting immunomodulatory properties and discovered a sulfonyl-containing hit, we named InhiTinib. This compound inhibited interferon (IFN)-gamma production and proliferation of primary CD3+ T cells without inducing cell death. In contrast, InhiTinib triggered apoptosis in several murine and human cancer cell lines. Besides, the compound was well tolerated by immunocompetent mice, triggered tumor regression in animals with pre-established EL4 T-cell lymphomas, and prolonged the overall survival of mice harboring advanced tumors. Altogether, our data demonstrate the anti-cancer properties of InhiTinib, which can henceforth bridge to wider-scale biochemical and clinical tests following further in-depth pharmacodynamic studies.

Published

2020

11. Humoral Immunity to Allogeneic Immunoproteasome-Expressing Mesenchymal Stromal Cells Requires Efferocytosis by Endogenous Phagocytes

Author

Jean-Pierre Bikorimana, Jamilah Abusarah, Natasha Salame, Nehme El-Hachem, Riam Shammaa, and Moutih Rafei

Subjects

mesenchymal stromal cells, immunoproteasome, antigen presentation, antibodies, cytokines, allogeneic, Cytology, QH573-671

Abstract

The extensive use of mesenchymal stromal cells (MSCs) over the last decade has revolutionized modern medicine. From the delivery of pharmacological proteins to regenerative medicine and immune modulation, these cells have proven to be highly pleiotropic and responsive to their surrounding environment. Nevertheless, their role in promoting inflammation has been fairly limited by the questionable use of interferon-gamma, as this approach has also been proven to enhance the cells’ immune-suppressive abilities. Alternatively, we have previously shown that de novo expression of the immunoproteasome (IPr) complex instills potent antigen cross-presentation capabilities in MSCs. Interestingly, these cells were found to express the major histocompatibility class (MHC) II protein, which prompted us to investigate their ability to stimulate humoral immunity. Using a series of in vivo studies, we found that administration of allogeneic ovalbumin (OVA)-pulsed MSC-IPr cells elicits a moderate antibody titer, which was further enhanced by the combined use of pro-inflammatory cytokines. The generated antibodies were functional as they blocked CD4 T-cell activation following their co-culture with OVA-pulsed MSC-IPr and mitigated E.G7 tumor growth in vivo. The therapeutic potency of MSC-IPr was, however, dependent on efferocytosis, as phagocyte depletion prior to vaccination abrogated MSC-IPr-induced humoral responses while promoting their survival in the host. In contrast, antibody-mediated neutralization of CD47, a potent “do not eat me signal”, enhanced antibody titer levels. These observations highlight the major role played by myeloid cells in supporting antibody production by MSC-IPr and suggest that the immune outcome is dictated by a net balance between efferocytosis-stimulating and -inhibiting signals.

Published

2022

12. Bioexploration and Phylogenetic Placement of Entomopathogenic Fungi of the Genus Beauveria in Soils of Lebanon Cedar Forests

Author

Charbel Al Khoury, Georges Nemer, Richard Humber, Nehme El-Hachem, Jacques Guillot, Racha Chehab, Elise Noujeim, Yara El Khoury, Wadih Skaff, Nathalie Estephan, and Nabil Nemer

Subjects

soil-bioexploration, phylogeny, new-taxa, Beauveria tannourinensis, Beauveria ehdenensis, Biology (General), QH301-705.5

Abstract

The cedar forests of Lebanon have been threatened by the outbreak caused by climate change of a web-spinning sawfly, Cephalcia tannourinensis (Hymenoptera: Pamphiliidae), which negatively impacted the survival of one of the oldest tree species on earth. In this study, we investigated the occurrence of naturally soil-inhabiting entomopathogenic fungi for their role in containing the massive outbreak of this insect. We used a combination of fungal bioexploration methods, including insect bait and selective media. Morphological features and multilocus phylogeny—based on Sanger sequencing of the transcripts encoding the translation elongation factor 1-alpha (TEF-α), RNA polymerase II second largest subunit (RBP2), and the nuclear intergenic region (Bloc) were used for species identification. The occurrence rate of entomopathogenic fungi (EPF) varied with location, soil structure, forest structure, and isolation method. From 15 soil samples positive for fungal occurrence, a total of 249 isolates was obtained from all locations using different isolation methods. The phylogenetic analysis confirmed the existence of two novel indigenous species: Beauveria tannourinensis sp. nov. and Beauveria ehdenensis sp. nov. In conclusion, the present survey was successful (1) in optimizing the isolation methods for EPF, (2) investigating the natural occurrence of Beauveria spp. in outbreak areas of C. tannourinensis, and (3) in characterizing the presence of new Beauveria species in Lebanese cedar forest soil.

Published

2021

13. Gene isoforms as expression-based biomarkers predictive of drug response in vitro

Author

Zhaleh Safikhani, Petr Smirnov, Kelsie L. Thu, Jennifer Silvester, Nehme El-Hachem, Rene Quevedo, Mathieu Lupien, Tak W. Mak, David Cescon, and Benjamin Haibe-Kains

Subjects

Science

Abstract

Altered mRNA splicing features in many cancers, but it has not been linked to drug response. Here, with their meta-analytic framework, the authors analyse pharmacogenomic data to identify isoform-based biomarkers predictive of in vitro drug response, and show them to frequently be strong predictors.

Published

2017

14. Transcriptomic Alterations in Lung Adenocarcinoma Unveil New Mechanisms Targeted by the TBX2 Subfamily of Tumor Suppressor Genes

Author

Athar Khalil, Batoul Dekmak, Fouad Boulos, Jake Kantrowitz, Avrum Spira, Junya Fujimoto, Humam Kadara, Nehme El-Hachem, and Georges Nemer

Subjects

transcriptomics, T-Box, tumor suppressor gene, demethylation, lung adenocarcinoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

T-box (TBX) transcription factors are evolutionary conserved genes and master transcriptional regulators. In mammals, TBX2 subfamily (TBX2, TBX3, TBX4, and TBX5) genes are expressed in the developing lung bud and tracheae. Our group previously showed that the expression of TBX2 subfamily was significantly high in human normal lungs, but markedly suppressed in lung adenocarcinoma (LUAD). To further elucidate their role in LUAD pathogenesis, we first confirmed abundant expression of protein products of the four members by immunostaining in adult human normal lung tissues. We also found overall suppressed expression of these genes and their corresponding proteins in a panel of human LUAD cell lines. Transient over-expression of each of the genes in human (NCI-H1299), and mouse (MDA-F471) derived lung cancer cells was found to significantly inhibit growth and proliferation as well as induce apoptosis. Genome-wide transcriptomic analyses on NCI-H1299 cells, overexpressing TBX2 gene subfamily, unraveled novel regulatory pathways. These included, among others, inhibition of cell cycle progression but more importantly activation of the histone demethylase pathway. When using a pattern-matching algorithm, we showed that TBX's overexpression mimic molecular signatures from azacitidine treated NCI-H1299 cells which in turn are inversely correlated to expression profiles of both human and murine lung tumors relative to matched normal lung. In conclusion, we showed that the TBX2 subfamily genes play a critical tumor suppressor role in lung cancer pathogenesis through regulating its methylating pattern, making them putative candidates for epigenetic therapy in LUAD.

Published

2018

15. A Novel Role for CSRP1 in a Lebanese Family with Congenital Cardiac Defects

Author

Amina Kamar, Akl C. Fahed, Kamel Shibbani, Nehme El-Hachem, Salim Bou-Slaiman, Mariam Arabi, Mazen Kurban, Jonathan G. Seidman, Christine E. Seidman, Rachid Haidar, Elias Baydoun, Georges Nemer, and Fadi Bitar

Subjects

congenital heart disease, CSRP1, TRPS1, polydactyly, Genetics, QH426-470

Abstract

Despite an obvious role for consanguinity in congenital heart disease (CHD), most studies fail to document a monogenic model of inheritance except for few cases. We hereby describe a first-degree cousins consanguineous Lebanese family with 7 conceived children: 2 died in utero of unknown causes, 3 have CHD, and 4 have polydactyly. The aim of the study is to unveil the genetic variant(s) causing these phenotypes using next generation sequencing (NGS) technology. Targeted exome sequencing identified a heterozygous duplication in CSRP1 which leads to a potential frameshift mutation at position 154 of the protein. This mutation is inherited from the father, and segregates only with the CHD phenotype. The in vitro characterization demonstrates that the mutation dramatically abrogates its transcriptional activity over cardiac promoters like NPPA. In addition, it differentially inhibits the physical association of CSRP1 with SRF, GATA4, and with the newly described partner herein TBX5. Whole exome sequencing failed to show any potential variant linked to polydactyly, but revealed a novel missense mutation in TRPS1. This mutation is inherited from the healthy mother, and segregating only with the cardiac phenotype. Both TRPS1 and CSRP1 physically interact, and the mutations in each abrogate their partnership. Our findings add fundamental knowledge into the molecular basis of CHD, and propose the di-genic model of inheritance as responsible for such malformations.

Published

2017

16. Revisiting inconsistency in large pharmacogenomic studies [version 3; referees: 2 approved, 1 approved with reservations]

Author

Zhaleh Safikhani, Petr Smirnov, Mark Freeman, Nehme El-Hachem, Adrian She, Quevedo Rene, Anna Goldenberg, Nicolai J. Birkbak, Christos Hatzis, Leming Shi, Andrew H. Beck, Hugo J.W.L. Aerts, John Quackenbush, and Benjamin Haibe-Kains

Subjects

Cancer Therapeutics, Drug Discovery & Design, Methods for Diagnostic & Therapeutic Studies, Pharmacogenomics, Medicine, Science

Abstract

In 2013, we published a comparative analysis of mutation and gene expression profiles and drug sensitivity measurements for 15 drugs characterized in the 471 cancer cell lines screened in the Genomics of Drug Sensitivity in Cancer (GDSC) and Cancer Cell Line Encyclopedia (CCLE). While we found good concordance in gene expression profiles, there was substantial inconsistency in the drug responses reported by the GDSC and CCLE projects. We received extensive feedback on the comparisons that we performed. This feedback, along with the release of new data, prompted us to revisit our initial analysis. We present a new analysis using these expanded data, where we address the most significant suggestions for improvements on our published analysis — that targeted therapies and broad cytotoxic drugs should have been treated differently in assessing consistency, that consistency of both molecular profiles and drug sensitivity measurements should be compared across cell lines, and that the software analysis tools provided should have been easier to run, particularly as the GDSC and CCLE released additional data. Our re-analysis supports our previous finding that gene expression data are significantly more consistent than drug sensitivity measurements. Using new statistics to assess data consistency allowed identification of two broad effect drugs and three targeted drugs with moderate to good consistency in drug sensitivity data between GDSC and CCLE. For three other targeted drugs, there were not enough sensitive cell lines to assess the consistency of the pharmacological profiles. We found evidence of inconsistencies in pharmacological phenotypes for the remaining eight drugs. Overall, our findings suggest that the drug sensitivity data in GDSC and CCLE continue to present challenges for robust biomarker discovery. This re-analysis provides additional support for the argument that experimental standardization and validation of pharmacogenomic response will be necessary to advance the broad use of large pharmacogenomic screens.

Published

2017

17. Defining the biological basis of radiomic phenotypes in lung cancer

Author

Patrick Grossmann, Olya Stringfield, Nehme El-Hachem, Marilyn M Bui, Emmanuel Rios Velazquez, Chintan Parmar, Ralph TH Leijenaar, Benjamin Haibe-Kains, Philippe Lambin, Robert J Gillies, and Hugo JWL Aerts

Subjects

radiomics, oncology, computational biology, imaging, genomics, Medicine, Science, Biology (General), QH301-705.5

Abstract

Medical imaging can visualize characteristics of human cancer noninvasively. Radiomics is an emerging field that translates these medical images into quantitative data to enable phenotypic profiling of tumors. While radiomics has been associated with several clinical endpoints, the complex relationships of radiomics, clinical factors, and tumor biology are largely unknown. To this end, we analyzed two independent cohorts of respectively 262 North American and 89 European patients with lung cancer, and consistently identified previously undescribed associations between radiomic imaging features, molecular pathways, and clinical factors. In particular, we found a relationship between imaging features, immune response, inflammation, and survival, which was further validated by immunohistochemical staining. Moreover, a number of imaging features showed predictive value for specific pathways; for example, intra-tumor heterogeneity features predicted activity of RNA polymerase transcription (AUC = 0.62, p=0.03) and intensity dispersion was predictive of the autodegration pathway of a ubiquitin ligase (AUC = 0.69, p

Published

2017

18. Assessment of pharmacogenomic agreement [version 1; referees: 3 approved]

Author

Zhaleh Safikhani, Nehme El-Hachem, Rene Quevedo, Petr Smirnov, Anna Goldenberg, Nicolai Juul Birkbak, Christopher Mason, Christos Hatzis, Leming Shi, Hugo JWL Aerts, John Quackenbush, and Benjamin Haibe-Kains

Subjects

Bioinformatics, Genomics, Methods for Diagnostic & Therapeutic Studies, Molecular Pharmacology, Pharmacogenomics, Pharmacokinetics & Drug Delivery, Statistical Methodologies & Health Informatics, Medicine, Science

Abstract

In 2013 we published an analysis demonstrating that drug response data and gene-drug associations reported in two independent large-scale pharmacogenomic screens, Genomics of Drug Sensitivity in Cancer (GDSC) and Cancer Cell Line Encyclopedia (CCLE), were inconsistent. The GDSC and CCLE investigators recently reported that their respective studies exhibit reasonable agreement and yield similar molecular predictors of drug response, seemingly contradicting our previous findings. Reanalyzing the authors’ published methods and results, we found that their analysis failed to account for variability in the genomic data and more importantly compared different drug sensitivity measures from each study, which substantially deviate from our more stringent consistency assessment. Our comparison of the most updated genomic and pharmacological data from the GDSC and CCLE confirms our published findings that the measures of drug response reported by these two groups are not consistent. We believe that a principled approach to assess the reproducibility of drug sensitivity predictors is necessary before envisioning their translation into clinical settings.

Published

2016

19. Author Correction: Gene isoforms as expression-based biomarkers predictive of drug response in vitro

Author

Zhaleh Safikhani, Petr Smirnov, Kelsie L. Thu, Jennifer Silvester, Nehme El-Hachem, Rene Quevedo, Mathieu Lupien, Tak W. Mak, David Cescon, and Benjamin Haibe-Kains

Subjects

Science

Abstract

In the original version of this Article, financial support was not fully acknowledged. This error has now been corrected in both the PDF and HTML versions of the Article.

Published

2018

20. Data from TACIMA-218: A Novel Pro-Oxidant Agent Exhibiting Selective Antitumoral Activity

Author

Moutih Rafei, Borhane Annabi, Samaneh Kamyabiazar, Francois Mercier, Maja Jankovic, Jerry Pelletier, Francis Robert, Noël J.-M. Raynal, Annie Beaudry, Hugo Wurtele, Ian Hammond-Martel, Abed El-Hakim El-Kadiry, Nehme El-Hachem, Yun Cui, and Jamilah Abusarah

Abstract

We report the discovery, via a unique high-throughput screening strategy, of a novel bioactive anticancer compound: Thiol Alkylating Compound Inducing Massive Apoptosis (TACIMA)-218. We demonstrate that this molecule engenders apoptotic cell death in genetically diverse murine and human cancer cell lines, irrespective of their p53 status, while sparing normal cells. TACIMA-218 causes oxidative stress in the absence of protective antioxidants normally induced by Nuclear factor erythroid 2–related factor 2 activation. As such, TACIMA-218 represses RNA translation and triggers cell signaling cascade alterations in AKT, p38, and JNK pathways. In addition, TACIMA-218 manifests thiol-alkylating properties resulting in the disruption of redox homeostasis along with key metabolic pathways. When administered to immunocompetent animals as a monotherapy, TACIMA-218 has no apparent toxicity and induces complete regression of pre-established lymphoma and melanoma tumors. In sum, TACIMA-218 is a potent oxidative stress inducer capable of selective cancer cell targeting.

Published

2023

21. Supplementary Data from TACIMA-218: A Novel Pro-Oxidant Agent Exhibiting Selective Antitumoral Activity

Author

Moutih Rafei, Borhane Annabi, Samaneh Kamyabiazar, Francois Mercier, Maja Jankovic, Jerry Pelletier, Francis Robert, Noël J.-M. Raynal, Annie Beaudry, Hugo Wurtele, Ian Hammond-Martel, Abed El-Hakim El-Kadiry, Nehme El-Hachem, Yun Cui, and Jamilah Abusarah

Abstract

Supplementary data.

Published

2023

22. Supplementary Table 2 from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

Statistical comparison of the DNF taxonomy against single datasets taxonomies, using one-sided superiority tests

Published

2023

23. Supplementary Table 1 from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

Similarity Matrices of the DNF and single-layer taxonomies (based on the CTRPv2 drug sensitivity dataset).

Published

2023

24. Supplementary Figures from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

This file contains all the Supplementary Figures (1-9) reporting the results of DNF using the NCI60 drug sensitivity data, as well as additional information regarding the size and distribution for drug communities in the DNF taxonomies

Published

2023

25. Supplementary Table 5 from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

Comparison of predictive value of DNF versus published methods

Published

2023

26. Supplementary Table 3 from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

Drug communities identified from the DNF taxonomies.

Published

2023

27. Data from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

Identification of drug targets and mechanism of action (MoA) for new and uncharacterized anticancer drugs is important for optimization of treatment efficacy. Current MoA prediction largely relies on prior information including side effects, therapeutic indication, and chemoinformatics. Such information is not transferable or applicable for newly identified, previously uncharacterized small molecules. Therefore, a shift in the paradigm of MoA predictions is necessary toward development of unbiased approaches that can elucidate drug relationships and efficiently classify new compounds with basic input data. We propose here a new integrative computational pharmacogenomic approach, referred to as Drug Network Fusion (DNF), to infer scalable drug taxonomies that rely only on basic drug characteristics toward elucidating drug–drug relationships. DNF is the first framework to integrate drug structural information, high-throughput drug perturbation, and drug sensitivity profiles, enabling drug classification of new experimental compounds with minimal prior information. DNF taxonomy succeeded in identifying pertinent and novel drug–drug relationships, making it suitable for investigating experimental drugs with potential new targets or MoA. The scalability of DNF facilitated identification of key drug relationships across different drug categories, providing a flexible tool for potential clinical applications in precision medicine. Our results support DNF as a valuable resource to the cancer research community by providing new hypotheses on compound MoA and potential insights for drug repurposing. Cancer Res; 77(11); 3057–69. ©2017 AACR.

Published

2023

28. Supplementary Table Legends from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

This file contains the legends for Supplementary Tables 1 to 5.

Published

2023

29. Supplementary Methods from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

This file contains a detailed description of the methods used to reproduce published algorithms for drug clustering.

Published

2023

30. Supplementary Table 4 from Integrative Cancer Pharmacogenomics to Infer Large-Scale Drug Taxonomy

Author

Benjamin Haibe-Kains, Anna Goldenberg, Gary D. Bader, Ruth Isserlin, Chantal Ho, Erin Birkwood, Ailsa Fang, Kenan Deng, Christina Chung, Petr Smirnov, Zhaleh Safikhani, Laleh Soltan Ghoraie, Deena M.A. Gendoo, and Nehme El-Hachem

Abstract

Enrichment of DNF drug communities

Published

2023

31. Revisiting inconsistency in large pharmacogenomic studies [version 2; referees: 1 approved, 1 approved with reservations, 1 not approved]

Author

Zhaleh Safikhani, Petr Smirnov, Mark Freeman, Nehme El-Hachem, Adrian She, Quevedo Rene, Anna Goldenberg, Nicolai J. Birkbak, Christos Hatzis, Leming Shi, Andrew H. Beck, Hugo J.W.L. Aerts, John Quackenbush, and Benjamin Haibe-Kains

Subjects

Research Article, Articles, Cancer Therapeutics, Drug Discovery & Design, Methods for Diagnostic & Therapeutic Studies, Pharmacogenomics, drug sensitivity, cancer, pharmacogenomics, consistency, pharmacogenomic agreement

Abstract

In 2013, we published a comparative analysis of mutation and gene expression profiles and drug sensitivity measurements for 15 drugs characterized in the 471 cancer cell lines screened in the Genomics of Drug Sensitivity in Cancer (GDSC) and Cancer Cell Line Encyclopedia (CCLE). While we found good concordance in gene expression profiles, there was substantial inconsistency in the drug responses reported by the GDSC and CCLE projects. We received extensive feedback on the comparisons that we performed. This feedback, along with the release of new data, prompted us to revisit our initial analysis. We present a new analysis using these expanded data, where we address the most significant suggestions for improvements on our published analysis — that targeted therapies and broad cytotoxic drugs should have been treated differently in assessing consistency, that consistency of both molecular profiles and drug sensitivity measurements should be compared across cell lines, and that the software analysis tools provided should have been easier to run, particularly as the GDSC and CCLE released additional data. Our re-analysis supports our previous finding that gene expression data are significantly more consistent than drug sensitivity measurements. Using new statistics to assess data consistency allowed identification of two broad effect drugs and three targeted drugs with moderate to good consistency in drug sensitivity data between GDSC and CCLE. For three other targeted drugs, there were not enough sensitive cell lines to assess the consistency of the pharmacological profiles. We found evidence of inconsistencies in pharmacological phenotypes for the remaining eight drugs. Overall, our findings suggest that the drug sensitivity data in GDSC and CCLE continue to present challenges for robust biomarker discovery. This re-analysis provides additional support for the argument that experimental standardization and validation of pharmacogenomic response will be necessary to advance the broad use of large pharmacogenomic screens.

Published

2017

32. The

Author

Jean-Pierre, Bikorimana, Nehme, El-Hachem, Jamilah, Abusarah, Nicoletta, Eliopoulos, Sebastien, Talbot, Riam, Shammaa, and Moutih, Rafei

Abstract

Immunoproteasome-reprogrammed mesenchymal stromal cells (IRMs) can surpass dendritic cells at eliciting tumor-specific immunity. However, the current IRM vaccination regimen remains clinically unsuitable due to the relatively high dose of IRMs needed. Since the administration of a lower IRM dose triggers a feeble anti-tumoral response, we aimed to combine this vaccination regimen with different modalities to fine-tune the potency of the vaccine. In a nutshell, we found that the co-administration of IRMs and interleukin-12 accentuates the anti-tumoral response, whereas the cross-presentation potency of IRMs is enhanced via intracellular succinate build-up, delayed endosomal maturation, and increased endosome-to-cytosol plasticity. Stimulating phagocyte-mediated cancer efferocytosis by blocking the CD47-SIRPα axis was also found to enhance IRM vaccine outcomes. Upon designing a single protocol combining the abovementioned strategies, 60% of treated animals exhibited a complete response. Altogether, this is the first IRM-based vaccination study, optimized to simultaneously target three vaccine-related pitfalls: T-cell response, antigen cross-presentation, and cancer phagocytosis.

Published

2022

33. TACIMA-218: A Novel Pro-Oxidant Agent Exhibiting Selective Antitumoral Activity

Author

Francois Mercier, Noël J.-M. Raynal, Borhane Annabi, Yun Cui, Jerry Pelletier, Hugo Wurtele, Francis Robert, Jamilah Abusarah, Nehme El-Hachem, Annie Beaudry, Maja Jankovic, Abed El-Hakim El-Kadiry, Moutih Rafei, Samaneh Kamyabiazar, and Ian Hammond-Martel

Subjects

0301 basic medicine, Cancer Research, Cell signaling, Alkylation, NF-E2-Related Factor 2, p38 mitogen-activated protein kinases, Antineoplastic Agents, medicine.disease_cause, Mice, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, medicine, Animals, Humans, Cysteine, Sulfhydryl Compounds, Protein kinase B, Cell Death, Chemistry, Endoplasmic Reticulum Stress, Oxidants, Pro-oxidant, Chromatin, Mitochondria, Oxidative Stress, Phenotype, 030104 developmental biology, Oncology, Apoptosis, Cell culture, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Reactive Oxygen Species, Glycolysis, Protein Processing, Post-Translational, Heme Oxygenase-1, Oxidative stress

Abstract

We report the discovery, via a unique high-throughput screening strategy, of a novel bioactive anticancer compound: Thiol Alkylating Compound Inducing Massive Apoptosis (TACIMA)-218. We demonstrate that this molecule engenders apoptotic cell death in genetically diverse murine and human cancer cell lines, irrespective of their p53 status, while sparing normal cells. TACIMA-218 causes oxidative stress in the absence of protective antioxidants normally induced by Nuclear factor erythroid 2–related factor 2 activation. As such, TACIMA-218 represses RNA translation and triggers cell signaling cascade alterations in AKT, p38, and JNK pathways. In addition, TACIMA-218 manifests thiol-alkylating properties resulting in the disruption of redox homeostasis along with key metabolic pathways. When administered to immunocompetent animals as a monotherapy, TACIMA-218 has no apparent toxicity and induces complete regression of pre-established lymphoma and melanoma tumors. In sum, TACIMA-218 is a potent oxidative stress inducer capable of selective cancer cell targeting.

Published

2021

34. Revisiting inconsistency in large pharmacogenomic studies [version 1; referees: 1 approved, 1 approved with reservations, 1 not approved]

Author

Zhaleh Safikhani, Petr Smirnov, Mark Freeman, Nehme El-Hachem, Adrian She, Quevedo Rene, Anna Goldenberg, Nicolai J. Birkbak, Christos Hatzis, Leming Shi, Andrew H. Beck, Hugo J.W.L. Aerts, John Quackenbush, and Benjamin Haibe-Kains

Subjects

Research Article, Articles, Cancer Therapeutics, Drug Discovery & Design, Methods for Diagnostic & Therapeutic Studies, Pharmacogenomics, drug sensitivity, cancer, pharmacogenomics, consistency, pharmacogenomic agreement

Abstract

In 2013, we published a comparative analysis mutation and gene expression profiles and drug sensitivity measurements for 15 drugs characterized in the 471 cancer cell lines screened in the Genomics of Drug Sensitivity in Cancer (GDSC) and Cancer Cell Line Encyclopedia (CCLE). While we found good concordance in gene expression profiles, there was substantial inconsistency in the drug responses reported by the GDSC and CCLE projects. We received extensive feedback on the comparisons that we performed. This feedback, along with the release of new data, prompted us to revisit our initial analysis. Here we present a new analysis using these expanded data in which we address the most significant suggestions for improvements on our published analysis — that targeted therapies and broad cytotoxic drugs should have been treated differently in assessing consistency, that consistency of both molecular profiles and drug sensitivity measurements should both be compared across cell lines, and that the software analysis tools we provided should have been easier to run, particularly as the GDSC and CCLE released additional data. Our re-analysis supports our previous finding that gene expression data are significantly more consistent than drug sensitivity measurements. The use of new statistics to assess data consistency allowed us to identify two broad effect drugs and three targeted drugs with moderate to good consistency in drug sensitivity data between GDSC and CCLE. For three other targeted drugs, there were not enough sensitive cell lines to assess the consistency of the pharmacological profiles. We found evidence of inconsistencies in pharmacological phenotypes for the remaining eight drugs. Overall, our findings suggest that the drug sensitivity data in GDSC and CCLE continue to present challenges for robust biomarker discovery. This re-analysis provides additional support for the argument that experimental standardization and validation of pharmacogenomic response will be necessary to advance the broad use of large pharmacogenomic screens.

Published

2016

35. Acute inflammatory response via neutrophil activation protects against the development of chronic pain

Author

Marc Parisien, Lucas V. Lima, Concetta Dagostino, Nehme El-Hachem, Gillian L. Drury, Audrey V. Grant, Jonathan Huising, Vivek Verma, Carolina B. Meloto, Jaqueline R. Silva, Gabrielle G. S. Dutra, Teodora Markova, Hong Dang, Philippe A. Tessier, Gary D. Slade, Andrea G. Nackley, Nader Ghasemlou, Jeffrey S. Mogil, Massimo Allegri, and Luda Diatchenko

Subjects

Inflammation, Analgesics, Mice, Anti-Inflammatory Agents, Non-Steroidal, Animals, Humans, General Medicine, Chronic Pain, Acute Pain, Low Back Pain, Neutrophil Activation

Abstract

The transition from acute to chronic pain is critically important but not well understood. Here, we investigated the pathophysiological mechanisms underlying the transition from acute to chronic low back pain (LBP) and performed transcriptome-wide analysis in peripheral immune cells of 98 participants with acute LBP, followed for 3 months. Transcriptomic changes were compared between patients whose LBP was resolved at 3 months with those whose LBP persisted. We found thousands of dynamic transcriptional changes over 3 months in LBP participants with resolved pain but none in those with persistent pain. Transient neutrophil-driven up-regulation of inflammatory responses was protective against the transition to chronic pain. In mouse pain assays, early treatment with a steroid or nonsteroidal anti-inflammatory drug (NSAID) also led to prolonged pain despite being analgesic in the short term; such a prolongation was not observed with other analgesics. Depletion of neutrophils delayed resolution of pain in mice, whereas peripheral injection of neutrophils themselves, or S100A8/A9 proteins normally released by neutrophils, prevented the development of long-lasting pain induced by an anti-inflammatory drug. Analysis of pain trajectories of human subjects reporting acute back pain in the UK Biobank identified elevated risk of pain persistence for subjects taking NSAIDs. Thus, despite analgesic efficacy at early time points, the management of acute inflammation may be counterproductive for long-term outcomes of LBP sufferers.

Published

2022

36. A novel <scp> TRAF3IP2 </scp> variant causing familial scarring alopecia with mixed features of discoid lupus erythematosus and folliculitis decalvans

Author

Yutaka Shimomura, Ossama Abbas, Rémi Safi, Lamiaa Hamie, Georges Nemer, Edward Eid, Mazen Kurban, Inaam El‐Rassy, Athar Khalil, Nehme El-Hachem, Samar Khalil, and Tara Bardawil

Subjects

Male, 0301 basic medicine, Adolescent, Discoid lupus erythematosus, Folliculitis, Scarring alopecia, 030105 genetics & heredity, Biology, Transcriptome, Consanguinity, 03 medical and health sciences, Lupus Erythematosus, Discoid, Exome Sequencing, Genetics, medicine, Humans, Missense mutation, Genetic Predisposition to Disease, Protein Interaction Maps, Child, Exome, Genetics (clinical), Adaptor Proteins, Signal Transducing, Receptors, Interleukin-17, Systemic lupus erythematosus, Sequence Analysis, RNA, Intracellular Signaling Peptides and Proteins, Alopecia, medicine.disease, Pedigree, 030104 developmental biology, Child, Preschool, Immunology, Female, Folliculitis decalvans, Protein Binding

Abstract

Discoid lupus erythematosus (DLE) is an autoimmune disorder with a poorly defined etiology. Despite epidemiologic gender and ethnic biases, a clear genetic basis for DLE remains elusive. In this study, we used exome and RNA sequencing technologies to characterize a consanguineous Lebanese family with four affected individuals who presented with classical scalp DLE and generalized folliculitis. Our results unraveled a novel biallelic variant c.1313C > A leading to a missense substitution p.(Thr438Asn) in TRAF3IP2(NM_147200.3). Expression studies in cultured cells revealed mis-localization of the mutated protein. Functional characterization of the mutated protein showed significant reduction in the physical interaction with the interleukin 17-A receptor (IL17RA), while interaction with TRAF6 was unaffected. By conducting a differential genome-wide transcriptomics analysis between affected and non-affected individuals, we showed that the hair follicle differentiation pathway is drastically suppressed, whereas cytokine and inflammation responses are significantly upregulated. Furthermore, our results were highly concordant with molecular signatures in patients with DLE from a public dataset. In conclusion, this is the first report on a new putative role for TRAF3IP2 in the etiology of DLE. The identified molecular features associated with this gene could pave the way for better DLE-targeted treatment.

Published

2020

37. The CIt Protocol: A Blueprint to Potentiate the Immunogenicity of Immunoproteasome-Reprogrammed Mesenchymal Stromal Cells

Author

Jean Pierre Bikorimana, Nehme El-Hachem, Jamilah Abusarah, Nicoletta Eliopoulos, Sebastien Talbot, Riam Shammaa, and Moutih Rafei

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

38. UM171A-induced ROS promote antigen cross-presentation of immunogenic peptides by bone marrow-derived mesenchymal stromal cells

Author

Jean-Pierre Bikorimana, Jing Zhao, Riam Shammaa, Mazen Kurdi, Wael Saad, Nicoletta Eliopoulos, Natasha Salame, Moutih Rafei, and Nehme El-Hachem

Subjects

Medicine (General), Indoles, Mesenchymal stromal cells, Medicine (miscellaneous), Bone Marrow Cells, QD415-436, PSMB8, Anti-tumoral immunity, Biochemistry, Biochemistry, Genetics and Molecular Biology (miscellaneous), Interferon-gamma, Mice, R5-920, Cross-Priming, Antigen, medicine, Animals, UM171a, Antigen Presentation, Chemistry, Research, Mesenchymal stem cell, Cross-presentation, Mesenchymal Stem Cells, Cell Biology, Mice, Inbred C57BL, medicine.anatomical_structure, Antigen cross-presentation, Pyrimidines, Electron transport chain, Cancer research, Molecular Medicine, Anti-oxidants, Cellular vaccine, Bone marrow, Reactive Oxygen Species

Abstract

Background Mesenchymal stromal cells (MSCs) have been extensively used in the clinic due to their exquisite tissue repair capacity. However, they also hold promise in the field of cellular vaccination as they can behave as conditional antigen presenting cells in response to interferon (IFN)-gamma treatment under a specific treatment regimen. This suggests that the immune function of MSCs can be pharmacologically modulated. Given the capacity of the agonist pyrimido-indole derivative UM171a to trigger the expression of various antigen presentation-related genes in human hematopoietic progenitor cells, we explored the potential use of UM171a as a means to pharmacologically instill and/or promote antigen presentation by MSCs. Methods Besides completing a series of flow-cytometry-based phenotypic analyses, several functional antigen presentation assays were conducted using the SIINFEKL-specific T-cell clone B3Z. Anti-oxidants and electron transport chain inhibitors were also used to decipher UM171a’s mode of action in MSCs. Finally, the potency of UM171a-treated MSCs was evaluated in the context of therapeutic vaccination using immunocompetent C57BL/6 mice with pre-established syngeneic EG.7T-cell lymphoma. Results Treatment of MSCs with UM171a triggered potent increase in H2-Kb cell surface levels along with the acquisition of antigen cross-presentation abilities. Mechanistically, such effects occurred in response to UM171a-mediated production of mitochondrial-derived reactive oxygen species as their neutralization using anti-oxidants or Antimycin-A mitigated MSCs’ ability to cross-present antigens. Processing and presentation of the immunogenic ovalbumin-derived SIINFEKL peptide was caused by de novo expression of the Psmb8 gene in response to UM171a-triggered oxidative stress. When evaluated for their anti-tumoral properties in the context of therapeutic vaccination, UM171a-treated MSC administration to immunocompetent mice with pre-established T-cell lymphoma controlled tumor growth resulting in 40% survival without the need of additional supportive therapy and/or standard-of-care. Conclusions Altogether, our findings reveal a new immune-related function for UM171a and clearly allude to a direct link between UM171a-mediated ROS induction and antigen cross-presentation by MSCs. The fact that UM171a treatment modulates MSCs to become antigen-presenting cells without the use of IFN-gamma opens-up a new line of investigation to search for additional agents capable of converting immune-suppressive MSCs to a cellular tool easily adaptable to vaccination. Graphical abstract

Published

2022

39. Genetic pathway analysis reveals a major role for extracellular matrix organization in inflammatory and neuropathic pain

Author

Marjo Piltonen, Shannon N Tansley, Loren J. Martin, Concetta Dagostino, Massimo Allegri, Luda Diatchenko, Nehme El-Hachem, Marc Parisien, Jeffrey S. Mogil, Arkady Khoutorsky, and Alexander Samoshkin

Subjects

Freund's Adjuvant, Inflammation, Biology, Bioinformatics, Polymorphism, Single Nucleotide, Transcriptome, Extracellular matrix, Mice, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, Gene expression, medicine, Animals, Humans, Gene Regulatory Networks, Genetic Testing, RNA, Messenger, Genetic Association Studies, Pain Measurement, Mice, Inbred BALB C, Chronic pain, Nerve injury, medicine.disease, Extracellular Matrix, Disease Models, Animal, Anesthesiology and Pain Medicine, Neurology, Neuropathic pain, Neuralgia, Female, Neurology (clinical), medicine.symptom, 030217 neurology & neurosurgery, Extracellular matrix organization

Abstract

Chronic pain is a debilitating and poorly treated condition whose underlying mechanisms are poorly understood. Nerve injury and inflammation cause alterations in gene expression in tissues associated with pain processing, supporting molecular and cellular mechanisms that maintain painful states. However, it is not known whether transcriptome changes can be used to reconstruct a molecular pathophysiology of pain. In the current study, we identify molecular pathways contributing to chronic pain states through the analysis of global changes in the transcriptome of dorsal root ganglia, spinal cord, brain, and blood in mouse assays of nerve injury- and inflammation-induced pain. Comparative analyses of differentially expressed genes identified substantial similarities between 2 animal pain assays and with human low-back pain. Furthermore, the extracellular matrix (ECM) organization has been found the most commonly regulated pathway across all tested tissues in the 2 animal assays. Examination of human genome-wide association study data sets revealed an overrepresentation of differentially expressed genes within the ECM organization pathway in single nucleotide polymorphisms most strongly associated with human back pain. In summary, our comprehensive transcriptomics analysis in mouse and human identified ECM organization as a central molecular pathway in the development of chronic pain.

Published

2019

40. Engineering a Potent Cancer Vaccine Using Immunoproteasome-Expressing Mesenchymal Stromal Cells

Author

Jingkui Chen, Jamilah Abusarah, Jean-Pierre Bikorimana, Francis Robert, Borhane Annabi, Natasha Salame, Riam Shammaa, Sébastien Talbot, Mario Jolicoeur, Moutih Rafei, Fatemeh Khodayarian, Mohammad Balood, Abed El-Hakim El-Kadiry, Nehme El-Hachem, Samaneh Kamyabiazar, Martin Olivier, Katiane Roversi, Louis-Eric Trudeau, and Jerry Pelletier

Subjects

LAG3, biology, Mesenchymal stem cell, Cancer, chemical and pharmacologic phenomena, medicine.disease, Major histocompatibility complex, Epitope, Antigen, Chemokine secretion, medicine, biology.protein, Cancer research, Cancer vaccine

Abstract

Dendritic cells (DCs) excel at cross-presenting antigens, but their effectiveness as cancer vaccine is limited. Here, we describe an innovative vaccine approach using mesenchymal stromal cells (MSCs) engineered to express the immunoproteasome (IPr) complex (MSC-IPr). Such modification instilled efficient antigen cross-presenting abilities associated with enhanced major histocompatibility complex (MHC)I and CD80 expression, de novo expression of interleukin-12 along with higher chemokine secretion. In addition, the cross-presentation capacity of MSC-IPr is highly dependent on AMPK signaling, oxidative phosphorylation and production of reactive oxygen species. Compared to DCs, MSC-IPr hold the ability to cross-present a vastly different epitope repertoire, which translates into potent re-activation of T-cell immunity against EL4 lymphoma and B16 melanoma tumors. Moreover, therapeutic vaccination of animals with pre-established tumors efficiently controls cancer growth, an effect further enhanced when combined with antibodies targeting PD1, CTLA4, LAG3 or 4-1BB under both autologous and allogeneic settings. MSC-IPr constitute therefore a novel subset of non-hematopoietic antigen-presenting cells suitable for the future design of universal cell-based cancer vaccines.

Published

2021

41. A comparison of artificial intelligence-based algorithms for the identification of patients with depressed right ventricular function from 2-dimentional echocardiography parameters and clinical features

Author

Imad H. Elhajj, Ali Ahmad, Hussain Isma'eel, Zahi Ibrahim, Georges Sakr, Lara Masri, Abdallah El-Bizri, and Nehme El-Hachem

Subjects

education.field_of_study, Ventricular function, business.industry, Population, Gold standard (test), Random forest, Linear regression, Rv function, Medicine, Original Article, Cardiology and Cardiovascular Medicine, business, Cardiac magnetic resonance, education, Algorithm

Abstract

BACKGROUND: Recognizing low right ventricular (RV) function from 2-dimentiontial echocardiography (2D-ECHO) is challenging when parameters are contradictory. We aim to develop a model to predict low RV function integrating the various 2D-ECHO parameters in reference to cardiac magnetic resonance (CMR)—the gold standard. METHODS: We retrospectively identified patients who underwent a 2D-ECHO and a CMR within 3 months of each other at our institution (American University of Beirut Medical Center). We extracted three parameters (TAPSE, S’ and FAC(RV)) that are classically used to assess RV function. We have assessed the ability of 2D-ECHO derived parameters and clinical features to predict RV function measured by the gold standard CMR. We compared outcomes from four machine learning algorithms, widely used in the biomedical community to solve classification problems. RESULTS: One hundred fifty-five patients were identified and included in our study. Average age was 43±17.1 years old and 52/156 (33.3%) were females. According to CMR, 21 patients were identified to have RV dysfunction, with an RVEF of 34.7%±6.4%, as opposed to 54.7%±6.7% in the normal RV population (P

Published

2020

42. Repurposing Cilostazol for Raynaud's Phenomenon

Author

Elias Baydoun, Manal Fardoun, Ali H. Eid, Nehme El-Hachem, and Hasan Slika

Subjects

Drug, media_common.quotation_subject, Vasodilation, Prostacyclin, Pharmacology, Biochemistry, Fingers, Drug Discovery, medicine, Humans, media_common, business.industry, Organic Chemistry, Drug Repositioning, Raynaud Disease, Calcium Channel Blockers, Intermittent claudication, Cilostazol, Drug repositioning, Molecular Medicine, medicine.symptom, business, Perfusion, Vasoconstriction, medicine.drug

Abstract

Raynaud's Phenomenon (RP) results from exaggerated cold-induced vasoconstriction. RP patients suffer from vasospastic attacks and compromised digital blood perfusion leading to a triple color change at the level the fingers. Severe RP may cause ulcers and threaten tissue viability. Many drugs have been used to alleviate the symptoms of RP. These include calcium-channel blockers, cGMP-specific phosphodiesterase type 5 inhibitors, prostacyclin analogs, and angiotensin receptor blockers. Despite their variety, these drugs do not treat RP but rather alleviate its symptoms. To date, no drug for RP has been yet approved by the U.S Food and Drugs Administration. Cilostazol is a selective inhibitor of phosphodiesterase-III, originally prescribed to treat intermittent claudication. Owing to its antiplatelet and vasodilating properties, cilostazol is being repurposed as a potential drug for RP. This review focuses on the different lines of action of cilostazol serving to enhance blood perfusion in RP patients.

Published

2020

43. Author response for 'A novel <scp> TRAF3IP2 </scp> variant causing familial scarring alopecia with mixed features of discoid lupus erythematosus and folliculitis decalvans'

Author

Nehme El-Hachem, Lamiaa Hamie, Georges Nemer, Inaam El‐Rassy, Mazen Kurban, Edward Eid, Rémi Safi, Tara Bardawil, Yutaka Shimomura, Ossama Abbas, Athar Khalil, and Samar Khalil

Subjects

medicine.medical_specialty, Discoid lupus erythematosus, business.industry, medicine, Scarring alopecia, medicine.disease, business, Dermatology, Folliculitis decalvans

Published

2020

44. Engineering immunoproteasome-expressing mesenchymal stromal cells: A potent cellular vaccine for lymphoma and melanoma in mice

Author

Jamilah Abusarah, Fatemeh Khodayarian, Nehme El-Hachem, Natasha Salame, Martin Olivier, Mohammad Balood, Katiane Roversi, Sebastien Talbot, Jean-Pierre Bikorimana, Jingkui Chen, Mario Jolicoeur, Louis-Eric Trudeau, Samaneh Kamyabiazar, Borhane Annabi, Francis Robert, Jerry Pelletier, Abed-El-Hakim El-Kadiry, Riam Shammaa, and Moutih Rafei

Subjects

Proteasome Endopeptidase Complex, Lymphoma, immunopeptidome, SILACs, Melanoma, Experimental, Antigen-Presenting Cells, Protein Engineering, Cancer Vaccines, Oxidative Phosphorylation, Article, General Biochemistry, Genetics and Molecular Biology, immunoproteasome, transcriptomics, universal vaccine, Animals, immune-checkpoint blockers, Immune Checkpoint Inhibitors, Antigen Presentation, Vaccination, Immunity, Mesenchymal Stem Cells, Dendritic Cells, Cellular Reprogramming, metabolomics, Mice, Inbred C57BL, Phenotype, Female, mesenchymal stromal cells, cancer vaccine

Abstract

Summary Dendritic cells (DCs) excel at cross-presenting antigens, but their effectiveness as cancer vaccine is limited. Here, we describe a vaccination approach using mesenchymal stromal cells (MSCs) engineered to express the immunoproteasome complex (MSC-IPr). Such modification instills efficient antigen cross-presentation abilities associated with enhanced major histocompatibility complex class I and CD80 expression, de novo production of interleukin-12, and higher chemokine secretion. This cross-presentation capacity of MSC-IPr is highly dependent on their metabolic activity. Compared with DCs, MSC-IPr hold the ability to cross-present a vastly different epitope repertoire, which translates into potent re-activation of T cell immunity against EL4 and A20 lymphomas and B16 melanoma tumors. Moreover, therapeutic vaccination of mice with pre-established tumors efficiently controls cancer growth, an effect further enhanced when combined with antibodies targeting PD-1, CTLA4, LAG3, or 4-1BB under both autologous and allogeneic settings. Therefore, MSC-IPr constitute a promising subset of non-hematopoietic antigen-presenting cells suitable for designing universal cell-based cancer vaccines., Graphical abstract, Highlights • Stable expression of the immunoproteasome in MSCs instills a pro-inflammatory phenotype • Induced metabolic alterations drive antigen cross-presentation by MSC-IPr • Engineered MSC-IPr elicit potent anti-tumoral immunity • The immunopeptidome of MSC-IPr is distinct from dendritic cells, Abusarah et al. demonstrate that mesenchymal stromal cells engineered to express the immunoproteasome (MSC-IPr) exhibit distinct antigen presentation properties, display altered metabolic signatures, and present a unique set of antigens compared with standard dendritic cells. These attributes make them ideal candidates for the future design of cell-based cancer vaccines.

Published

2021

45. PharmacoDB: an integrative database for mining in vitro anticancer drug screening studies

Author

Victor Kofia, Wail Ba-alawi, George Alexandru Adam, Nehme El-Hachem, Mark Freeman, Chantal Ho, Benjamin Haibe-Kains, Alexander Maru, Petr Smirnov, and Zhaleh Safikhani

Subjects

0301 basic medicine, Dose-Response Relationship, Drug, Database, Databases, Pharmaceutical, Antineoplastic Agents, Biology, computer.software_genre, Anticancer drug, Pharmacogenomic Testing, User-Computer Interface, 03 medical and health sciences, 030104 developmental biology, Cell Line, Tumor, Pharmacogenomics, Biological variation, Genetics, Drug response, Database Issue, Data Mining, Humans, Leverage (statistics), Drug Screening Assays, Antitumor, computer

Abstract

Recent cancer pharmacogenomic studies profiled large panels of cell lines against hundreds of approved drugs and experimental chemical compounds. The overarching goal of these screens is to measure sensitivity of cell lines to chemical perturbations, correlate these measures to genomic features, and thereby develop novel predictors of drug response. However, leveraging these valuable data is challenging due to the lack of standards for annotating cell lines and chemical compounds, and quantifying drug response. Moreover, it has been recently shown that the complexity and complementarity of the experimental protocols used in the field result in high levels of technical and biological variation in the in vitro pharmacological profiles. There is therefore a need for new tools to facilitate rigorous comparison and integrative analysis of large-scale drug screening datasets. To address this issue, we have developed PharmacoDB (pharmacodb.pmgenomics.ca), a database integrating the largest cancer pharmacogenomic studies published to date. Here, we describe how the curation of cell line and chemical compound identifiers maximizes the overlap between datasets and how users can leverage such data to compare and extract robust drug phenotypes. PharmacoDB provides a unique resource to mine a compendium of curated cancer pharmacogenomic datasets that are otherwise disparate and difficult to integrate.

Published

2017

46. gem-Difluorobisarylic derivatives: design, synthesis and anti-inflammatory effect

Author

Sandra E. Ghayad, Ali Hachem, Abeer J. Ayoub, Nada Borghol, Nehme El-Hachem, Aida Habib, René Grée, Bassam Badran, Oula K. Dagher, Eva Hamade, Layal Hariss, Ghewa A. El-Achkar, DERENNES, Catherine, Lebanese University [Beirut] (LU), American University of Beirut [Beyrouth] (AUB), Institut des Sciences Chimiques de Rennes (ISCR), Université de Rennes (UR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Centre de recherche sur l'Inflammation (CRI (UMR_S_1149 / ERL_8252 / U1149)), Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Lebanese University, Lebanon, Medical Practice Plan of the American University of Beirut [320024], University Research Board of the American University of Beirut [320024], Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), and Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA)

Subjects

Lipopolysaccharide, Diaryl ethers, 010402 general chemistry, 01 natural sciences, Nitric oxide, lcsh:Chemistry, chemistry.chemical_compound, [CHIM] Chemical Sciences, medicine, [CHIM]Chemical Sciences, Prostaglandin E2, Nitrite, Inflammation, biology, 010405 organic chemistry, Chemistry, Macrophages, Aromatization, General Chemistry, Fluorine, Combinatorial chemistry, 0104 chemical sciences, Cyclooxygenase, Nitric oxide synthase, lcsh:QD1-999, Docking (molecular), biology.protein, Research Article, medicine.drug

Abstract

Introduction New fluorinated diaryl ethers and bisarylic ketones were designed and evaluated for their anti-inflammatory effects in primary macrophages. Methods The synthesis of the designed molecules started from easily accessible and versatile gem-difluoro propargylic derivatives. The desired aromatic systems were obtained using Diels–Alder/aromatization sequences and this was followed by Pd-catalyzed coupling reactions and, when required, final functionalization steps. Both direct inhibitory effects on cyclooxygenase-1 or -2 activities, protein expression of cyclooxygenase-2 and nitric oxide synthase-II and the production of prostaglandin E2, the pro-inflammatory nitric oxide and interleukin-6 were evaluated in primary murine bone marrow-derived macrophages in response to lipopolysaccharide. Docking of the designed molecules in cyclooxygenase-1 or -2 was performed. Results Only fluorinated compounds exerted anti-inflammatory activities by lowering the secretion of interleukin-6, nitric oxide, and prostaglandin E2, and decreasing the protein expression of inducible nitric oxide synthase and cyclooxygenase-2 in mouse primary macrophages exposed to lipopolysaccharide, as well as cyclooxygenase activity for some inhibitors with different efficiencies depending on the R-groups. Docking observation suggested an inhibitory role of cyclooxygenase-1 or -2 for compounds A3, A4 and A5 in addition to their capacity to inhibit nitrite, interleukin-6, and nitric oxide synthase-II and cyclooxygenase-2 expression. Conclusion The new fluorinated diaryl ethers and bisarylic ketones have anti-inflammatory effects in macrophages. These fluorinated compounds have improved potential anti-inflammatory properties due to the fluorine residues in the bioactive molecules.

Published

2019

47. MOESM2 of gem-Difluorobisarylic derivatives: design, synthesis and anti-inflammatory effect

Author

Ayoub, Abeer, Hariss, Layal, Nehme El-Hachem, Ghewa El-Achkar, Ghayad, Sandra, Oula Dagher, Borghol, Nada, RenĂŠ GrĂŠe, Badran, Bassam, Hachem, Ali, Hamade, Eva, and Habib, Aida

Subjects

Data_FILES, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Abstract

Additional file 2. ARRIVE Check list.

Published

2019

48. SIGN: similarity identification in gene expression

Author

Venkata S. K. Manem, Seyed Ali Madani Tonekaboni, Nehme El-Hachem, and Benjamin Haibe-Kains

Subjects

Statistics and Probability, Gene Expression, Breast Neoplasms, Computational biology, Biology, Biochemistry, Biological pathway, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Similarity (network science), medicine, Humans, Molecular Biology, 030304 developmental biology, 0303 health sciences, Supervised learning, Cancer, medicine.disease, Applications Notes, Expression (mathematics), Computer Science Applications, Computational Mathematics, Computational Theory and Mathematics, 030220 oncology & carcinogenesis, Identification (biology), Software, Sign (mathematics)

Abstract

Motivation High-throughput molecular profiles of human cells have been used in predictive computational approaches for stratification of healthy and malignant phenotypes and identification of their biological states. In this regard, pathway activities have been used as biological features in unsupervised and supervised learning schemes. Results We developed SIGN (Similarity Identification in Gene expressioN), a flexible open-source R package facilitating the use of pathway activities and their expression patterns to identify similarities between biological samples. We defined a new measure, the transcriptional similarity coefficient, which captures similarity of gene expression patterns, instead of quantifying overall activity, in biological pathways between the samples. To demonstrate the utility of SIGN in biomedical research, we establish that SIGN discriminates subtypes of breast tumors and patients with good or poor overall survival. SIGN outperforms the best models in DREAM challenge in predicting survival of breast cancer patients using the data from the Molecular Taxonomy of Breast Cancer International Consortium. In summary, SIGN can be used as a new tool for interrogating pathway activity and gene expression patterns in unsupervised and supervised learning schemes to improve prognostic risk estimation for cancer patients by the biomedical research community. Availability and implementation An open-source R package is available (https://cran.r-project.org/web/packages/SIGN/).

Published

2018

49. Integrative Transcriptome Analyses Empower the Anti-COVID-19 Drug Arsenal

Author

Benjamin Haibe-Kains, Edward Eid, Mazen Kurban, Ghassan M. Matar, Salah Zeineldine, Ghassan Dbaibo, Jean-Pierre Bikorimana, Riam Shammaa, Nehme El Hachem, Ossama Abbas, Georges Nemer, Nelly Rubeiz, and Moutih Rafei

Subjects

0301 basic medicine, Bioinformatics, Systems biology, Population, Disease, 02 engineering and technology, medicine.disease_cause, Article, Transcriptome, 03 medical and health sciences, Virology, 0502 economics and business, Pandemic, Medicine, 050207 economics, lcsh:Science, education, Coronavirus, education.field_of_study, 050208 finance, Multidisciplinary, business.industry, Systems Biology, 05 social sciences, Conflict of interest, 021001 nanoscience & nanotechnology, 3. Good health, Clinical trial, Regimen, 030104 developmental biology, lcsh:Q, 0210 nano-technology, Janus kinase, business

Abstract

The beginning of the twenty-first century has been marked by three distinct waves of zoonotic coronavirus outbreaks into the human population. The COVID-19 (Coronavirus disease 2019) pandemic is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and emerged as a global threat endangering the livelihoods of millions worldwide. Currently, and despite collaborative efforts, diverse therapeutic strategies from ongoing clinical trials are still debated. To address the need for such an immediate call of action, we leveraged the largest dataset of drug-induced transcriptomic perturbations, public SARS-CoV-2 transcriptomic datasets, and expression profiles from normal lung transcriptomes. Most importantly, our unbiased systems biology approach prioritized more than 50 repurposable drug candidates (e.g., Corticosteroids, Janus kinase and Bruton kinase inhibitors). Further clinical investigation of these FDA approved candidates as monotherapy or in combination with an antiviral regimen (e.g., Remdesivir) could lead to promising outcomes in COVID-19 patients., Graphical Abstract, Highlights A large repertoire of drug repurposing across SARS-CoV-2 transcriptomic settings Pathway enrichment revealed TNF-NFkB signaling as a targetable hallmark for COVID-19 Drug enrichment identified BTK inhibitors as repurposable candidates for COVID-19 Identified drug candidates warrant investigation in models of SARS-CoV-2 infection

Published

2020

50. Assessment of Genetic Drift in Large Pharmacogenomic Studies

Author

Petr Smirnov, Rene Quevedo, Nehme El-Hachem, Trevor J. Pugh, Zhaleh Safikhani, Chantal Ho, Denis Tkachuk, and Benjamin Haibe-Kains

Subjects

Histology, Computational biology, Biology, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, Genetic drift, Cell Line, Tumor, Chromosome instability, Humans, Genome size, Genotyping, 030304 developmental biology, 0303 health sciences, Snp data, Genome, Genetic Drift, Reproducibility of Results, Genomics, Cell Biology, Isogenic human disease models, Pharmacogenomic Testing, 3. Good health, Pharmacogenetics, Pharmacogenomics, 030217 neurology & neurosurgery, SNP array

Abstract

Summary Genomic instability affects the reproducibility of experiments that rely on cancer cell lines. However, measuring the genomic integrity of these cells throughout a study is a costly endeavor that is commonly forgone. Here, we validate the identity of cancer cell lines in three pharmacogenomic studies and screen for genetic drift within and between datasets. Using SNP data from these datasets encompassing 1,497 unique cell lines and 63 unique pharmacological compounds, we show that genetic drift is widely prevalent in almost all cell lines with a median of 4.5%–6.1% of the total genome size drifted between any two isogenic cell lines. This study highlights the need for molecular profiling of cell lines to minimize the effects of passaging or misidentification in biomedical studies. We developed the CCLid web application, available at www.cclid.ca, to allow users to screen the genomic profiles of their cell lines against these datasets. A record of this paper's transparent peer review process is included in the Supplemental Information.

Published

2020