S. Rocchi scite author profile

S. Rocchi

3Publications

33Citation Statements Received

9Citation Statements Given

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Centre Méditerranéen de Médecine Moléculaire, Inserm, Université Côte d'Azur

Publications

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Determination of Gab1 (Grb2-Associated Binder-1) Interaction with Insulin Receptor-Signaling Molecules

Rocchi

1998

Molecular Endocrinology

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The newly identified insulin receptor (IR) substrate, Gab1 [growth factor receptor bound 2 (Grb2)-associated binder-1] is rapidly phosphorylated on several tyrosine residues by the activated IR. Phosphorylated Gab1 acts as a docking protein for Src homology-2 (SH2) domain-containing proteins. These include the regulatory subunit p85 of phosphatidylinositol 3-kinase and phosphotyrosine phosphatase, SHP-2. In this report, using a modified version of the yeast two-hybrid system, we localized which Gab1 phospho-tyrosine residues are required for its interaction with phosphatidylinositol 3-kinase and with SHP-2. Our results demonstrate that to interact with p85 or SHP-2 SH2 domains, Gab1 must be tyrosine phosphorylated by IR. Further, we found that Gab1 tyrosine 472 is the major site for association with p85, while tyrosines 447 and 589 are participating in this process. Concerning Gab1/SHP-2 interaction, only mutation of tyrosine 627 prevents binding of Gab1 to SHP-2 SH2 domains, suggesting the occurrence of a monovalent binding event. Finally, we examined the role of Gab1 PH (Pleckstrin homology) domain in Gab1/IR interaction and in Gab1 tyrosine phosphorylation by IR. Using the modified two-hybrid system and in vitro experiments, we found that the Gab1 PH domain is not important for IR/ Gab1 interaction and for Gab1 tyrosine phosphorylation. In contrast, in intact mammalian cells, Gab1 PH domain appears to be crucial for its tyrosine phosphorylation and association with SHP-2 after insulin stimulation.

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Impact of house dust mite in vitiligo skin: environmental contribution to increased cutaneous immunity and melanocyte detachment

Bzioueche

Boniface

Drullion

et al. 2023

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Background Vitiligo is an autoimmune skin disorder characterized by loss of melanocytes. Protease-mediated disruption of junctions between keratinocytes and/or keratinocyte intrinsic dysfunction may directly contribute to melanocyte loss. House dust mite (HDM), an environmental allergen with potent protease activity, contributes to respiratory and gut disease but also to atopic dermatitis and rosacea. Objective To verify if HDM can contribute to melanocyte detachment in vitiligo and if so, by which mechanism(s). Methods Using primary human keratinocytes, human skin biopsies from healthy and vitiligo patients, and 3D reconstructed human epidermis, we studied the effect of HDM on cutaneous immunity, tight and adherent junction expression and melanocyte detachment. Results HDM increased keratinocyte production of vitiligo-associated cytokines and chemokines and increased expression of TLR-4. This was associated with increased in situ MMP-9 activity, reduced cutaneous expression of adherent protein E-cadherin, increased soluble E-cadherin in culture supernatant and significantly increased number of supra-basal melanocytes in the skin. This effect was dose-dependent and driven by cysteine protease Der p1 and MMP-9. Selective MMP-9 inhibitor, Ab142180 restored E-cadherin expression and inhibited HDM-induced melanocyte detachment. Keratinocytes from vitiligo patients were more sensitive to HDM-induced changes than healthy keratinocytes. All results were confirmed in 3D model of healthy skin and in human skin biopsies. Conclusions Our results highlight that environmental mite may act as an external source of PAMPs in vitiligo and topical MMP-9 inhibitors may be useful therapeutic targets. Whether HDM contributes to onset of flares in vitiligo remains to be tested in carefully controlled trials.

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Novel Therapeutic Targets in Melanoma

Cerezo

Rocchi

2023

Cancers

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S. Rocchi

Determination of Gab1 (Grb2-Associated Binder-1) Interaction with Insulin Receptor-Signaling Molecules

Impact of house dust mite in vitiligo skin: environmental contribution to increased cutaneous immunity and melanocyte detachment

Novel Therapeutic Targets in Melanoma

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