CONTEXT: Empirical evidence suggests that autocrine human GH (hGH) may possess a proliferative and oncogenic role in human mammary carcinoma. However, this concept is largely derived from studies using cultured human mammary carcinoma cell (HMCC) lines. OBJECTIVE: We investigated the expression and functionality of hGH and the hGH receptor in isolated cultures of primary HMCC. DESIGN: Epithelial cell adhesion molecule-positive primary HMCC were isolated from surgical biopsies of patients with mammary carcinoma and cultured in vitro. Expression of hGH and hGH receptor was determined by RT-PCR, immunofluorescence microscopy, and ELISA. The proliferative response of the cultured primary HMCC to hGH stimulation or hGH inhibition with a hGH antagonist was determined. RESULTS: One hundred percent of cultured primary HMCC expressed the hGH receptor, and 52% expressed hGH at the mRNA level. hGH-positive primary HMCC produced hGH protein within the cell and secreted hGH to the media. Both hGH-negative and hGH-positive HMCC responded to hGH stimulation with large increases in cell number. hGH-positive HMCC responded to inhibition of hGH by a hGH antagonist with a decrease in cell number, whereas hGH-negative HMCC did not. CONCLUSION: Primary HMCC proliferate in response to hGH, and the proliferation of hGH-positive HMCC is inhibited by hGH antagonism. Inhibition of hGH in patients with mammary carcinoma may therefore limit tumor growth.
CONTEXT: Empirical evidence suggests that autocrine human GH (hGH) may possess a proliferative and oncogenic role in human mammary carcinoma. However, this concept is largely derived from studies using cultured human mammary carcinoma cell (HMCC) lines. OBJECTIVE: We investigated the expression and functionality of hGH and the hGH receptor in isolated cultures of primary HMCC. DESIGN: Epithelial cell adhesion molecule-positive primary HMCC were isolated from surgical biopsies of patients with mammary carcinoma and cultured in vitro. Expression of hGH and hGH receptor was determined by RT-PCR, immunofluorescence microscopy, and ELISA. The proliferative response of the cultured primary HMCC to hGH stimulation or hGH inhibition with a hGH antagonist was determined. RESULTS: One hundred percent of cultured primary HMCC expressed the hGH receptor, and 52% expressed hGH at the mRNA level. hGH-positive primary HMCC produced hGH protein within the cell and secreted hGH to the media. Both hGH-negative and hGH-positive HMCC responded to hGH stimulation with large increases in cell number. hGH-positive HMCC responded to inhibition of hGH by a hGH antagonist with a decrease in cell number, whereas hGH-negative HMCC did not. CONCLUSION: Primary HMCC proliferate in response to hGH, and the proliferation of hGH-positive HMCC is inhibited by hGH antagonism. Inhibition of hGH in patients with mammary carcinoma may therefore limit tumor growth.
Authors: Yanrong Qian; Reetobrata Basu; Samuel C Mathes; Nathan A Arnett; Silvana Duran-Ortiz; Kevin R Funk; Alison L Brittain; Prateek Kulkarni; Joseph C Terry; Emily Davis; Jordyn T Singerman; Brooke E Henry; Edward O List; Darlene E Berryman; John J Kopchick Journal: Cancers (Basel) Date: 2020-12-04 Impact factor: 6.639
Authors: Agata Kabała-Dzik; Anna Rzepecka-Stojko; Robert Kubina; Robert Dariusz Wojtyczka; Ewa Buszman; Jerzy Stojko Journal: Integr Cancer Ther Date: 2018-09-24 Impact factor: 3.279