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  • Implications of Heterogeneity of Epithelial-Mesenchymal States in Acromegaly Therapeutic Pharmacologic Response.

Implications of Heterogeneity of Epithelial-Mesenchymal States in Acromegaly Therapeutic Pharmacologic Response.

Biomedicines (2022-02-26)
Joan Gil, Montserrat Marques-Pamies, Elena Valassi, Araceli García-Martínez, Guillermo Serra, Cristina Hostalot, Carmen Fajardo-Montañana, Cristina Carrato, Ignacio Bernabeu, Mónica Marazuela, Helena Rodríguez-Lloveras, Rosa Cámara, Isabel Salinas, Cristina Lamas, Betina Biagetti, Andreu Simó-Servat, Susan M Webb, Antonio Picó, Mireia Jordà, Manel Puig-Domingo
ABSTRACT

Acromegaly is caused by excess growth hormone (GH) produced by a pituitary tumor. First-generation somatostatin receptor ligands (SRLs) are the first-line treatment. Several studies have linked E-cadherin loss and epithelial-mesenchymal transition (EMT) with resistance to SRLs. Our aim was to study EMT and its relationship with SRLs resistance in GH-producing tumors. We analyzed the expression of EMT-related genes by RT-qPCR in 57 tumors. The postsurgical response to SRLs was categorized as complete response, partial response, or nonresponse if IGF-1 was normal, had decreased more than 30% without normalization, or neither of those, respectively. Most tumors showed a hybrid and variable EMT expression profile not specifically associated with SRL response instead of a defined epithelial or mesenchymal phenotype. However, high SNAI1 expression was related to invasive and SRL-nonresponsive tumors. RORC was overexpressed in tumors treated with SRLs before surgery, and this increased expression was more prominent in those cases that normalized postsurgical IGF-1 levels under SRL treatment. In conclusion, GH-producing tumors showed a heterogeneous expression pattern of EMT-related genes that would partly explain the heterogeneous response to SRLs. SNAI1 and RORC may be useful to predict response to SRLs and help medical treatment decision making.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-ROR gamma T Antibody, clone 6F3.1, clone 6F3.1, from mouse