Mabrouka Salem scite author profile

Extracellular vesicles (EVs) are involved in cell-to-cell communication and modulation of numerous physiological and pathological processes. EVs are found in large quantities in milk and contain several inflammation- and immunity-modulating proteins and microRNAs, through which they exert beneficial effects in several inflammatory disease models. Here, we investigated the effects of two EV subsets, concentrated from commercial cow’s milk, on a murine model of colitis induced with dextran sodium sulfate (DSS). P35K EVs, isolated by ultracentrifugation at 35,000 g, and P100K EVs, isolated at 100,000 g, were previously characterized and administered by gavage to healthy and DSS-treated mice. P35K EVs and, to a lesser extent, P100K EVs improved several outcomes associated to DSS-induced colitis, modulated the gut microbiota, restored intestinal impermeability and replenished mucin secretion. Also, P35K EVs modulated innate immunity, while P100K EVs decreased inflammation through the downregulation of colitis-associated microRNAs, especially miR-125b, associated with a higher expression of the NFκB inhibitor TNFAIP3 (A20). These results suggest that different milk EV subsets may improve colitis outcomes through different, and possibly complementary, mechanisms. Further unveiling of these mechanisms might offer new opportunities for improving the life of patients with colitis and be of importance for milk processing, infant milk formulation and general public health.

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8‐BuS‐ATP derivatives as specific NTPDase1 inhibitors

Lecka

Gillerman

Fausther

et al. 2013

British J Pharmacology

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Background and Purpose Ectonucleotidases control extracellular nucleotide levels and consequently, their (patho)physiological responses. Among these enzymes, nucleoside triphosphate diphosphohydrolase‐1 (NTPDase1), −2, −3 and −8 are the major ectonucleotidases responsible for nucleotide hydrolysis at the cell surface under physiological conditions, and NTPDase1 is predominantly located at the surface of vascular endothelial cells and leukocytes. Efficacious inhibitors of NTPDase1 are required to modulate responses induced by nucleotides in a number of pathological situations such as thrombosis, inflammation and cancer. Experimental Approach Here, we present the synthesis and enzymatic characterization of five 8‐BuS‐adenine nucleotide derivatives as potent and selective inhibitors of NTPDase1. Key Results The compounds 8‐BuS‐AMP, 8‐BuS‐ADP and 8‐BuS‐ATP inhibit recombinant human and mouse NTPDase1 by mixed type inhibition, predominantly competitive with Ki values <1 μM. In contrast to 8‐BuS‐ATP which could be hydrolyzed by other NTPDases, the other BuS derivatives were resistant to hydrolysis by either NTPDase1, −2, −3 or −8. 8‐BuS‐AMP and 8‐BuS‐ADP were the most potent and selective inhibitors of NTPDase1 expressed in human umbilical vein endothelial cells as well as in situ in human and mouse tissues. As expected, as a result of their inhibition of recombinant human NTPDase1, 8‐BuS‐AMP and 8‐BuS‐ADP impaired the ability of this enzyme to block platelet aggregation. Importantly, neither of these two inhibitors triggered platelet aggregation nor prevented ADP‐induced platelet aggregation, in support of their inactivity towards P2Y1 and P2Y12 receptors. Conclusions and Implications The 8‐BuS‐AMP and 8‐BuS‐ADP have therefore potential to serve as drugs for the treatment of pathologies regulated by NTPDase1.

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Exacerbated intestinal inflammation in P2Y6 deficient mice is associated with Th17 activation

Salem¹,

Azreq²,

Pelletier³

et al. 2019

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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NTPDase8 protects mice from intestinal inflammation by limiting P2Y₆ receptor activation: identification of a new pathway of inflammation for the potential treatment of IBD

Salem

Lecka

Pelletier

et al. 2021

Gut

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ObjectiveNucleotides are danger signals that activate inflammatory responses via binding P2 receptors. The nucleoside triphosphate diphosphohydrolase-8 (NTPDase8) is an ectonucleotidase that hydrolyses P2 receptor ligands. We investigated the role of NTPDase8 in intestinal inflammation.DesignWe generated NTPDase8-deficient (Entpd8–/–) mice to define the role of NTPDase8 in the dextran sodium sulfate (DSS) colitis model. To assess inflammation, colons were collected and analysed by histopathology, reverse transcriptase-quantitative real-time PCR (RT-qPCR) and immunohistochemistry. P2 receptor expression was analysed by RT-qPCR on primary intestinal epithelium and NTPDase8 activity by histochemistry. The role of intestinal P2Y6 receptors was assessed by bone marrow transplantation experiments and with a P2Y6 receptor antagonist.ResultsNTPDase8 is the dominant enzyme responsible for the hydrolysis of nucleotides in the lumen of the colon. Compared with wild-type (WT) control mice, the colon of Entpd8–/– mice treated with DSS displayed significantly more histological damage, immune cell infiltration, apoptosis and increased expression of several proinflammatory cytokines. P2Y6 was the dominant P2Y receptor expressed at the mRNA level by the colonic epithelia. Irradiated P2ry6–/– mice transplanted with WT bone marrow were fully protected from DSS-induced intestinal inflammation. In agreement, the daily intrarectal injection of a P2Y6 antagonist protected mice from DSS-induced intestinal inflammation in a dose-dependent manner. Finally, human intestinal epithelial cells express NTPDase8 and P2Y6 similarly as in mice.ConclusionNTPDase8 protects the intestine from inflammation most probably by limiting the activation of P2Y6 receptors in colonic epithelial cells. This may provide a novel therapeutic strategy for the treatment of inflammatory bowel disease.

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Mabrouka Salem

Concentrates of two subsets of extracellular vesicles from cow’s milk modulate symptoms and inflammation in experimental colitis

8‐BuS‐ATP derivatives as specific NTPDase1 inhibitors

Exacerbated intestinal inflammation in P2Y6 deficient mice is associated with Th17 activation

NTPDase8 protects mice from intestinal inflammation by limiting P2Y₆ receptor activation: identification of a new pathway of inflammation for the potential treatment of IBD

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Mabrouka Salem

Concentrates of two subsets of extracellular vesicles from cow’s milk modulate symptoms and inflammation in experimental colitis

8‐BuS‐ATP derivatives as specific NTPDase1 inhibitors

Exacerbated intestinal inflammation in P2Y6 deficient mice is associated with Th17 activation

NTPDase8 protects mice from intestinal inflammation by limiting P2Y6 receptor activation: identification of a new pathway of inflammation for the potential treatment of IBD

Contact Info

Product

Resources

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NTPDase8 protects mice from intestinal inflammation by limiting P2Y₆ receptor activation: identification of a new pathway of inflammation for the potential treatment of IBD