Mohammad Jaber scite author profile

The malignancy potential is correlated with the mechanical deformability of the cancer cells. However, mechanical tests for clinical applications are limited. We present here a Triangular Correlation (TrC) between cell deformability, phagocytic capacity, and cancer aggressiveness, suggesting that phagocytic measurements can be a mechanical surrogate marker of malignancy. The TrC was proved in human prostate cancer cells with different malignancy potential, and in human bladder cancer and melanoma cells that were sorted into subpopulations based solely on their phagocytic capacity. The more phagocytic subpopulations showed elevated aggressiveness ex vivo and in vivo. The uptake potential was preserved, and differences in gene expression and in epigenetic signature were detected. In all cases, enhanced phagocytic and aggressiveness phenotypes were correlated with greater cell deformability and predicted by a computational model. Our multidisciplinary study provides the proof of concept that phagocytic measurements can be applied for cancer diagnostics and precision medicine.

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Direct Induction of the Three Pre-implantation Blastocyst Cell Types from Fibroblasts

Benchetrit¹,

Jaber²,

Zayat³

et al. 2019

Cell Stem Cell

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Summary Following fertilization, totipotent cells undergo asymmetric cell divisions, resulting in three distinct cell types in the late pre-implantation blastocyst: epiblast (Epi), primitive endoderm (PrE), and trophectoderm (TE). Here, we aim to understand whether these three cell types can be induced from fibroblasts by one combination of transcription factors. By utilizing a sophisticated fluorescent knockin reporter system, we identified a combination of five transcription factors, Gata3, Eomes, Tfap2c, Myc, and Esrrb, that can reprogram fibroblasts into induced pluripotent stem cells (iPSCs), induced trophoblast stem cells (iTSCs), and induced extraembryonic endoderm stem cells (iXENs), concomitantly. In-depth transcriptomic, chromatin, and epigenetic analyses provide insights into the molecular mechanisms that underlie the reprogramming process toward the three cell types. Mechanistically, we show that the interplay between Esrrb and Eomes during the reprogramming process determines cell fate, where high levels of Esrrb induce a XEN-like state that drives pluripotency and high levels of Eomes drive trophectodermal fate.

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Protease-activated-receptor-2 affects protease-activated-receptor-1-driven breast cancer

Jaber

Maoz

Kancharla

et al. 2013

Cell. Mol. Life Sci.

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Clinical Review of the Management of FulminantClostridium difficileInfection

Jaber¹,

Ólafsson²,

Fung³

et al. 2008

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Both the incidence and severity of CDI are increasing. Fulminant CDI is underappreciated as a life-threatening disease because of a lack of awareness of its severity and its nonspecific clinical syndrome. Early diagnosis and treatment are essential for a good outcome, and early surgical intervention should be used in patients who are unresponsive to medical therapy. The surgical procedure of choice is a total abdominal colectomy with end ileostomy, although the mortality rate remains high.

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PH motifs in PAR1&2 endow breast cancer growth

et al. 2015

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Although emerging roles of protease-activated receptor1&2 (PAR1&2) in cancer are recognized, their underlying signalling events are poorly understood. Here we show signal-binding motifs in PAR1&2 that are critical for breast cancer growth. This occurs via the association of the pleckstrin homology (PH) domain with Akt/PKB as a key signalling event of PARs. Other PH-domain signal-proteins such as Etk/Bmx and Vav3 also associate with PAR1 and PAR2 through their PH domains. PAR1 and PAR2 bind with priority to Etk/Bmx. A point mutation in PAR2, H349A, but not in R352A, abrogates PH-protein association and is sufficient to markedly reduce PAR2-instigated breast tumour growth in vivo and placental extravillous trophoblast (EVT) invasion in vitro. Similarly, the PAR1 mutant hPar1-7A, which is unable to bind the PH domain, reduces mammary tumours and EVT invasion, endowing these motifs with physiological significance and underscoring the importance of these previously unknown PAR1 and PAR2 PH-domain-binding motifs in both pathological and physiological invasion processes.

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Protease-activated receptors (PARs) in cancer

Bar-Shavit

Maoz

Kancharla

et al. 2016

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Regulation of human protease‐activated receptor 1 ( hPar1 ) gene expression in breast cancer by estrogen

Salah¹,

Uziely²,

Jaber³

et al. 2012

FASEB j.

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A pivotal role is attributed to the estrogen-receptor (ER) pathway in mediating the effect of estrogen in breast cancer progression. Yet the precise mechanisms of cancer development by estrogen remain poorly understood. Advancing tumor categorization a step forward, and identifying cellular gene fingerprints to accompany histopathological assessment may provide targets for therapy as well as vehicles for evaluating the response to treatment. We report here that in breast carcinoma, estrogen may induce tumor development by eliciting protease-activated receptor-1 (PAR(1)) gene expression. Induction of PAR(1) was shown by electrophoretic mobility shift assay, luciferase reporter gene driven by the hPar(1) promoter, and chromatin-immunoprecipitation analyses. Functional estrogen regulation of hPar1 in breast cancer was demonstrated by an endothelial tube-forming network. Notably, tissue-microarray analyses from an established cohort of women diagnosed with invasive breast carcinoma exhibited a significantly shorter disease-free (P=0.006) and overall (P=0.02) survival of patients that were positive for ER and PAR(1), compared to ER-positive but PAR(1)-negative patients. We propose that estrogen transcriptionally regulates hPar(1), culminating in an aggressive gene imprint in breast cancer. While ER(+) patients are traditionally treated with hormone therapy, the presence of PAR(1) identifies a group of patients that requires additional treatment, such as anti-PAR(1) biological vehicles or chemotherapy.

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Mohammad Jaber

Increased expression of Cyr61 (CCN1) identified in peritoneal metastases from human pancreatic cancer

Triangular correlation (TrC) between cancer aggressiveness, cell uptake capability, and cell deformability

Direct Induction of the Three Pre-implantation Blastocyst Cell Types from Fibroblasts

Protease-activated-receptor-2 affects protease-activated-receptor-1-driven breast cancer

Clinical Review of the Management of FulminantClostridium difficileInfection

PH motifs in PAR1&2 endow breast cancer growth

Protease-activated receptors (PARs) in cancer

Regulation of human protease‐activated receptor 1 ( hPar1 ) gene expression in breast cancer by estrogen

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