CONTEXT: GH and IGF-I are known to promote breast carcinogenesis. Even if breast cancer (BC) incidence is not increased in female acromegalic patients, mortality is greater as compared with general population. OBJECTIVE: The objective of the study was to evaluate whether GH/IGF-I excess might influence BC response to chemotherapy. DESIGN: We evaluated GH and IGF-I effects on cell proliferation of a BC cell line, MCF7 cells, in the presence of doxorubicin (Doxo), frequently used in BC chemotherapy, and the possible mechanisms involved. RESULTS: GH and IGF-I induce MCF7 cell growth in serum-free conditions and protect the cells from the cytotoxic effects of Doxo. GH effects are direct and not mediated by IGF-I because they are apparent also in the presence of an IGF-I receptor blocking antibody and disappear in the presence of the GH antagonist pegvisomant. The expression of the MDR1 gene, involved in resistance to chemotherapeutic drugs, was not induced by GH. In addition, c-fos transduction was reduced by Doxo, which prevented GH stimulatory effects. Pegvisomant inhibited basal and GH-induced c-fos promoter transcriptional activity. Autocrine GH action is ruled out by the lack of endogenous GH expression in this MCF7 cell strain. CONCLUSIONS: These data indicate that GH can directly induce resistance to chemotherapeutic drugs with a mechanism that might involve GH-induced early gene transcription and support the hypothesis that GH excess can hamper BC treatment, possibly resulting in an increased mortality.
CONTEXT: GH and IGF-I are known to promote breast carcinogenesis. Even if breast cancer (BC) incidence is not increased in female acromegalicpatients, mortality is greater as compared with general population. OBJECTIVE: The objective of the study was to evaluate whether GH/IGF-I excess might influence BC response to chemotherapy. DESIGN: We evaluated GH and IGF-I effects on cell proliferation of a BC cell line, MCF7 cells, in the presence of doxorubicin (Doxo), frequently used in BC chemotherapy, and the possible mechanisms involved. RESULTS: GH and IGF-I induce MCF7 cell growth in serum-free conditions and protect the cells from the cytotoxic effects of Doxo. GH effects are direct and not mediated by IGF-I because they are apparent also in the presence of an IGF-I receptor blocking antibody and disappear in the presence of the GH antagonist pegvisomant. The expression of the MDR1 gene, involved in resistance to chemotherapeutic drugs, was not induced by GH. In addition, c-fos transduction was reduced by Doxo, which prevented GH stimulatory effects. Pegvisomant inhibited basal and GH-induced c-fos promoter transcriptional activity. Autocrine GH action is ruled out by the lack of endogenous GH expression in this MCF7 cell strain. CONCLUSIONS: These data indicate that GH can directly induce resistance to chemotherapeutic drugs with a mechanism that might involve GH-induced early gene transcription and support the hypothesis that GH excess can hamper BC treatment, possibly resulting in an increased mortality.
Authors: Manuel D Gahete; José Córdoba-Chacón; Daniel D Lantvit; Rosa Ortega-Salas; Rafael Sanchez-Sanchez; Francisco Pérez-Jiménez; José López-Miranda; Steven M Swanson; Justo P Castaño; Raúl M Luque; Rhonda D Kineman Journal: Carcinogenesis Date: 2014-08-01 Impact factor: 4.944
Authors: Daniel D Lantvit; Christopher J Unterberger; Michelle Lazar; Paige D Arneson; Colin A Longhurst; Steven M Swanson; Paul C Marker Journal: Endocrinology Date: 2021-04-01 Impact factor: 4.736