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1. Discoidin Domain Receptor 2 orchestrates melanoma resistance combining phenotype switching and proliferation

Author

Sala, Margaux, Allain, Nathalie, Moreau, Mélanie, Jabouille, Arnaud, Henriet, Elodie, Abou-Hammoud, Aya, Uguen, Arnaud, Di-Tommaso, Sylvaine, Dourthe, Cyril, Raymond, Anne-Aurélie, Dupuy, Jean-William, Gerard, Emilie, Dugot-Senant, Nathalie, Rousseau, Benoit, Merlio, Jean-Phillipe, Pham-Ledart, Anne, Vergier, Béatrice, Tartare-Deckert, Sophie, Moreau, Violaine, and Saltel, Frédéric

Published
2022
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2. Histidine Phosphorylation: Protein Kinases and Phosphatases.

Author

Ning, Jia, Sala, Margaux, Reina, Jeffrey, Kalagiri, Rajasree, Hunter, Tony, and McCullough, Brandon S.

Subjects
*PHOSPHOPROTEIN phosphatases, *PROTEIN kinases, *HISTIDINE kinases, *POST-translational modification, *HISTIDINE, *PHOSPHORYLATION
Abstract

Phosphohistidine (pHis) is a reversible protein post-translational modification (PTM) that is currently poorly understood. The P-N bond in pHis is heat and acid-sensitive, making it more challenging to study than the canonical phosphoamino acids pSer, pThr, and pTyr. As advancements in the development of tools to study pHis have been made, the roles of pHis in cells are slowly being revealed. To date, a handful of enzymes responsible for controlling this modification have been identified, including the histidine kinases NME1 and NME2, as well as the phosphohistidine phosphatases PHPT1, LHPP, and PGAM5. These tools have also identified the substrates of these enzymes, granting new insights into previously unknown regulatory mechanisms. Here, we discuss the cellular function of pHis and how it is regulated on known pHis-containing proteins, as well as cellular mechanisms that regulate the activity of the pHis kinases and phosphatases themselves. We further discuss the role of the pHis kinases and phosphatases as potential tumor promoters or suppressors. Finally, we give an overview of various tools and methods currently used to study pHis biology. Given their breadth of functions, unraveling the role of pHis in mammalian systems promises radical new insights into existing and unexplored areas of cell biology. [ABSTRACT FROM AUTHOR]

Published
2024
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6. ASS1 Overexpression: A Hallmark of Sonic Hedgehog Hepatocellular Adenomas; Recommendations for Clinical Practice

Author

Sala, Margaux, primary, Gonzales, Delphine, additional, Leste‐Lasserre, Thierry, additional, Dugot‐Senant, Nathalie, additional, Paradis, Valérie, additional, Di Tommaso, Sylvaine, additional, Dupuy, Jean‐William, additional, Pitard, Vincent, additional, Dourthe, Cyril, additional, Sciarra, Amedeo, additional, Sempoux, Christine, additional, Ferrell, Linda D., additional, Clouston, Andrew D., additional, Miller, Gregory, additional, Yeh, Mathew M., additional, Thung, Swan, additional, Gouw, Annette S.H., additional, Quaglia, Alberto, additional, Han, Jing, additional, Huan, Ji, additional, Fan, Cathy, additional, Crawford, James, additional, Nakanuma, Yasuni, additional, Harada, Kenichi, additional, le Bail, Brigitte, additional, Castain, Claire, additional, Frulio, Nora, additional, Trillaud, Hervé, additional, Possenti, Laurent, additional, Blanc, Jean‐Frédéric, additional, Chiche, Laurence, additional, Laurent, Christophe, additional, Balabaud, Charles, additional, Bioulac‐Sage, Paulette, additional, Raymond, Anne Aurélie, additional, and Saltel, Frédéric, additional

Published
2020
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7. Involvement of Discoidin domain receptors 1 and 2 in resistance to the targeted therapy during melanoma

Author

Sala, Margaux, INSERM U1053, Université Bordeaux, Bordeaux, France., Institut National de la Santé et de la Recherche Médicale (INSERM), Université de Bordeaux, Frédéric Saltel, and STAR, ABES

Subjects
Targeted therapy, Récepteurs à domaine discoidine, [SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, Discoidin domain receptors, Résistance, Melanoma, Resistant, Mélanome, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, Thérapie ciblée
Abstract

The combination of two treatments, an anti-BRAF plus an anti-MEK is currently used in first line in patient management presenting metastatic melanomas and harboring the BRAF V600E somatic mutation. However, the main issue during targeted therapy is the acquisition of cellular resistance in 80% of the patients, which is associated with an increase of metastasis formation, notably due to the hyperactivation of MAP kinase pathway. Different receptors are known to activate this signaling pathway and previous reports have indicated that Discoidin Domain Receptors (DDRs) 1 and 2 can activate MAP kinase pathway. Then, in order to study the role of DDRs in melanoma cells resistance to the targeted therapy, we firstly determined, that DDRs are overexpressed in Vemurafenib resistant cells compared to sensitive ones. We hypothesized that resistant cell lines, despite the bi-therapy, are able to over-activate MAP kinase pathway through DDRs activation. We also reported that DDRs depletion or inactivation by DDRs inhibitors such as Dasatinib or CR-13542 reduced tumor cell proliferation, due to a decrease of MAP kinase pathway activity in resistant cells. We finally confirmed those results in vivo, in a xenograft mouse model. As a result, we characterized DDRs as new therapeutic targets in resistant patient with metastatic melanoma. Therefore, we propose that Dasatinib, an FDA approved drug, could be a second treatment after the targeted bi-therapy in resistant patients overexpressing DDRs., La combinaison de deux traitements, un anti-BRAF et un anti-MEK est actuellement utilisée en première ligne de traitement dans la prise en charge des patients ayant un mélanome métastatique porteur de la mutation somatique BRAF V600E. Cependant, le problème majeur dans le mélanome est l'acquisition d'une résistance cellulaire chez 80% des patients, qui est associée à une augmentation de la formation de métastases, notamment due à l'hyper-activation de la voie des MAP kinases. Or, les récepteurs à domaine discoïdine DDR1 et DDR2 sont capables d’activer cette voie de signalisation. Les DDRs sont surexprimés dans de nombreux cancers où ils sont associés à des phénomènes de résistance et de récidives. Notre projet a donc pour but d’analyser l’implication des DDRs dans la résistance des cellules tumorales de mélanome à la thérapie ciblée. En premier lieu, nous avons déterminé que les DDRs sont surexprimés dans les cellules résistantes au Vemurafenib par rapport aux cellules sensibles. L’hypothèse posée est que les lignées cellulaires résistantes, malgré la bithérapie, sont capables de suractiver la voie des MAP kinases par l'induction des DDRs. De plus, nous avons démontré que la diminution de l’expression des DDRs par des inhibiteurs des DDRs, comme le Dasatinib ou le CR-13542, induit une diminution de la prolifération tumorale due à une baisse du niveau d’activité de la voie MAP kinase. Enfin, nous avons confirmé ces résultats in vivo, dans un modèle murin de xénogreffe. Par conséquent, nous avons identifié les DDRs comme étant de nouvelles cibles thérapeutiques chez les patients résistants atteints de mélanome métastatique. De ce fait, nous proposons que le Dasatinib (possédant déjà une autorisation de mise sur le marché) puisse être utilisé en deuxième intention, après un traitement à la bithérapie ciblée, chez les patients résistants surexprimant les DDRs.

Published
2019

8. Counteracting resistance to targeted therapy in melanoma by inhibiting discoidin domain receptors

Author

Sala, Margaux, Allain, Nathalie, Henriet, Elodie, Uguen, Arnaud, Di-Tommaso, Sylvaine, Raymond, Anne-Aurélie, Dupuy, Jean-William, Gerard, Emilie, Dugot-Senant, Nathalie, Rousseau, Benoit, Merlio, Jean-Phillipe, Pham-Ledart, Anne, Vergier, Béatrice, Moreau, Violaine, and Saltel, Frédéric

Abstract

Anti-BRAF plus an anti-MEK is currently used in first line for the management of patients presenting metastatic melanomas harboring the BRAF V600E mutation. However, the main issue during targeted therapy is the acquisition of cellular resistance in 80% of the patients, which is associated with an increased metastasis due to the hyperactivation of MAP kinase pathway. Previous reports have indicated that Discoidin Domain Receptors (DDRs) 1 and 2 can activate this pathway. To study the role of DDRs in melanoma cell resistance to targeted therapy, we first determined that DDRs are overexpressed in vemurafenib resistant cells compared to sensitive cells. We demonstrated that DDRs depletion or inactivation by DDRs inhibitors such as dasatinib or CR-13542 reduces tumor cell proliferation, due to a decrease of MAP kinase pathway activity in resistant cells. Finally, we confirmed these results in vivo in a xenograft mouse model and show that DDRs could be new therapeutic targets in resistant patients with metastatic melanoma. We propose that dasatinib could be a second-line treatment after the bi-therapy in resistant patients overexpressing DDRs.

Published
2019
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9. Implication des récepteurs à domaine discoïdine dans la résistance à la thérapie ciblée au cours du mélanome

Author

Sala, Margaux and STAR, ABES

Subjects
Targeted therapy, Récepteurs à domaine discoidine, [SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, Discoidin domain receptors, Résistance, Melanoma, Resistant, Mélanome, Thérapie ciblée
Abstract

The combination of two treatments, an anti-BRAF plus an anti-MEK is currently used in first line in patient management presenting metastatic melanomas and harboring the BRAF V600E somatic mutation. However, the main issue during targeted therapy is the acquisition of cellular resistance in 80% of the patients, which is associated with an increase of metastasis formation, notably due to the hyperactivation of MAP kinase pathway. Different receptors are known to activate this signaling pathway and previous reports have indicated that Discoidin Domain Receptors (DDRs) 1 and 2 can activate MAP kinase pathway. Then, in order to study the role of DDRs in melanoma cells resistance to the targeted therapy, we firstly determined, that DDRs are overexpressed in Vemurafenib resistant cells compared to sensitive ones. We hypothesized that resistant cell lines, despite the bi-therapy, are able to over-activate MAP kinase pathway through DDRs activation. We also reported that DDRs depletion or inactivation by DDRs inhibitors such as Dasatinib or CR-13542 reduced tumor cell proliferation, due to a decrease of MAP kinase pathway activity in resistant cells. We finally confirmed those results in vivo, in a xenograft mouse model. As a result, we characterized DDRs as new therapeutic targets in resistant patient with metastatic melanoma. Therefore, we propose that Dasatinib, an FDA approved drug, could be a second treatment after the targeted bi-therapy in resistant patients overexpressing DDRs., La combinaison de deux traitements, un anti-BRAF et un anti-MEK est actuellement utilisée en première ligne de traitement dans la prise en charge des patients ayant un mélanome métastatique porteur de la mutation somatique BRAF V600E. Cependant, le problème majeur dans le mélanome est l'acquisition d'une résistance cellulaire chez 80% des patients, qui est associée à une augmentation de la formation de métastases, notamment due à l'hyper-activation de la voie des MAP kinases. Or, les récepteurs à domaine discoïdine DDR1 et DDR2 sont capables d’activer cette voie de signalisation. Les DDRs sont surexprimés dans de nombreux cancers où ils sont associés à des phénomènes de résistance et de récidives. Notre projet a donc pour but d’analyser l’implication des DDRs dans la résistance des cellules tumorales de mélanome à la thérapie ciblée. En premier lieu, nous avons déterminé que les DDRs sont surexprimés dans les cellules résistantes au Vemurafenib par rapport aux cellules sensibles. L’hypothèse posée est que les lignées cellulaires résistantes, malgré la bithérapie, sont capables de suractiver la voie des MAP kinases par l'induction des DDRs. De plus, nous avons démontré que la diminution de l’expression des DDRs par des inhibiteurs des DDRs, comme le Dasatinib ou le CR-13542, induit une diminution de la prolifération tumorale due à une baisse du niveau d’activité de la voie MAP kinase. Enfin, nous avons confirmé ces résultats in vivo, dans un modèle murin de xénogreffe. Par conséquent, nous avons identifié les DDRs comme étant de nouvelles cibles thérapeutiques chez les patients résistants atteints de mélanome métastatique. De ce fait, nous proposons que le Dasatinib (possédant déjà une autorisation de mise sur le marché) puisse être utilisé en deuxième intention, après un traitement à la bithérapie ciblée, chez les patients résistants surexprimant les DDRs.

Published
2019

10. Discoidin domain receptor 2 drives melanoma drug resistance through AXL-dependent phenotype switching

Author

Sala, Margaux, primary, Allain, Nathalie, additional, Jabouille, Arnaud, additional, Henriet, Elodie, additional, Abou-Ammoud, Aya, additional, Uguen, Arnaud, additional, Di-Tommaso, Sylvaine, additional, Dhourte, Cyril, additional, Raymond, Anne-Aurélie, additional, Dupuy, Jean-William, additional, Gerard, Emilie, additional, Dugot-Senant, Nathalie, additional, Rousseau, Benoit, additional, Merlio, Jean-Phillipe, additional, Pham-Ledart, Anne, additional, Vergier, Béatrice, additional, Moreau, Violaine, additional, and Saltel, Frédéric, additional

Published
2019
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13. Using phage display for rational engineering of a higher affinity humanized 3' phosphohistidine-specific antibody.

Author

Martyn GD, Kalagiri R, Veggiani G, Stanfield RL, Choudhuri I, Sala M, Meisenhelder J, Chen C, Biswas A, Levy RM, Lyumkis D, Wilson IA, Hunter T, and Sidhu SS

Abstract

Histidine phosphorylation (pHis) is a non-canonical post-translational modification (PTM) that is historically understudied due to a lack of robust reagents that are required for its investigation, such as high affinity pHis-specific antibodies. Engineering pHis-specific antibodies is very challenging due to the labile nature of the phosphoramidate (P-N) bond and the stringent requirements for selective recognition of the two isoforms, 1-phosphohistidine (1-pHis) and 3-phosphohistidine (3-pHis). Here, we present a strategy for in vitro engineering of antibodies for detection of native 3-pHis targets. Specifically, we humanized the rabbit SC44-8 anti-3-pTza (a stable 3-pHis mimetic) mAb into a scaffold (herein referred to as hSC44) that was suitable for phage display. We then constructed six unique Fab phage-displayed libraries using the hSC44 scaffold and selected high affinity 3-pHis binders. Our selection strategy was carefully designed to enrich antibodies that bound 3-pHis with high affinity and had specificity for 3-pHis versus 3-pTza. hSC44.20N32F L , the best engineered antibody, has an ~10-fold higher affinity for 3-pHis than the parental hSC44. Eleven new Fab structures, including the first reported antibody-pHis peptide structures were solved by X-ray crystallography. Structural and quantum mechanical calculations provided molecular insights into 3-pHis and 3-pTza discrimination by different hSC44 variants and their affinity increase obtained through in vitro engineering. Furthermore, we demonstrate the utility of these newly developed high-affinity 3-pHis-specific antibodies for recognition of pHis proteins in mammalian cells by immunoblotting and immunofluorescence staining. Overall, our work describes a general method for engineering PTM-specific antibodies and provides a set of novel antibodies for further investigations of the role of 3-pHis in cell biology., Competing Interests: Competing Interest Statement: Authors declare no competing interests.

Published
2024
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