The possible existence of a humoral communication between glial cells and LHRH-secreting neurons has been studied using the LHRH-secreting GT1-1 cell line and type 1 astrocytes. Two different designs have been adopted: 1) GT1-1 cells were coincubated with purified cultures of type 1 rat astrocytes, and 2) GT1-1 cells were exposed to the conditioned medium (CM) in which type 1 rat astrocytes had been grown for 24 h. LHRH was measured by RIA in the medium of the GT1-1 cell cultures at different time intervals. The data show that short periods (1, 3, and 6 h) of either coculture or exposure to previously frozen CM significantly increase the release of LHRH from the GT1-1 cells. However, more prolonged times of coculture (e.g. 2 and 5 days) or exposure to CM (e.g. 48 h) induce a significant decrease in the amount of LHRH in the medium. The stimulatory effect on LHRH release appears to be specific for type 1 astrocytes (either cortical or hypothalamic), because neither the CM of oligodendrocytes nor the CM of LNCaP cells (a cell line derived from a human prostatic cancer) possess stimulating activities. Heating the type 1 astrocyte-CM to 100 C for 10 min does not eliminate the ability of the CM to significantly increase the release of LHRH from GT1-1 cells at 1, 3, and 6 h. Because of the opposite effects encountered in the short and long term experiments, it was hypothesized that the CM might contain, in addition to LHRH-releasing principle(s), LHRH-degrading properties. Known amounts of standard LHRH were then added to type 1 astrocyte-CM, either untreated or submitted to heating at 100 C for 10 min. The amount of LHRH added to untreated CM decreases progressively; on the contrary, the amount of LHRH added to heated CM remains unchanged. These results confirm that one or more heat-sensitive enzymes able to degrade LHRH may be present in the type 1 astrocyte-CM. As previously mentioned, the experiments reported so far were performed using type 1 astrocyte-CM that had been kept frozen for various periods of time, before being tested for its LHRH-releasing activity. Surprisingly, fresh CM proves to be inactive, whereas heated CM is effective; this suggests that the factor involved might be activated by the two opposite experimental procedures.(ABSTRACT TRUNCATED AT 400 WORDS)
Type 1 astrocytes influence luteinizing hormone-releasing hormone release from the hypothalamic cell line GT1-1: is transforming growth factor-beta the principle involved? / R. C. Melcangi, M. Galbiati, E. Messi, F. Piva, L. Martini, M. Motta. - In: ENDOCRINOLOGY. - ISSN 0013-7227. - 136:2(1995 Feb), pp. 679-686.
Type 1 astrocytes influence luteinizing hormone-releasing hormone release from the hypothalamic cell line GT1-1: is transforming growth factor-beta the principle involved?
R. C. Melcangi;M. Galbiati;E. Messi;F. Piva;L. Martini;M. Motta
1995
Abstract
The possible existence of a humoral communication between glial cells and LHRH-secreting neurons has been studied using the LHRH-secreting GT1-1 cell line and type 1 astrocytes. Two different designs have been adopted: 1) GT1-1 cells were coincubated with purified cultures of type 1 rat astrocytes, and 2) GT1-1 cells were exposed to the conditioned medium (CM) in which type 1 rat astrocytes had been grown for 24 h. LHRH was measured by RIA in the medium of the GT1-1 cell cultures at different time intervals. The data show that short periods (1, 3, and 6 h) of either coculture or exposure to previously frozen CM significantly increase the release of LHRH from the GT1-1 cells. However, more prolonged times of coculture (e.g. 2 and 5 days) or exposure to CM (e.g. 48 h) induce a significant decrease in the amount of LHRH in the medium. The stimulatory effect on LHRH release appears to be specific for type 1 astrocytes (either cortical or hypothalamic), because neither the CM of oligodendrocytes nor the CM of LNCaP cells (a cell line derived from a human prostatic cancer) possess stimulating activities. Heating the type 1 astrocyte-CM to 100 C for 10 min does not eliminate the ability of the CM to significantly increase the release of LHRH from GT1-1 cells at 1, 3, and 6 h. Because of the opposite effects encountered in the short and long term experiments, it was hypothesized that the CM might contain, in addition to LHRH-releasing principle(s), LHRH-degrading properties. Known amounts of standard LHRH were then added to type 1 astrocyte-CM, either untreated or submitted to heating at 100 C for 10 min. The amount of LHRH added to untreated CM decreases progressively; on the contrary, the amount of LHRH added to heated CM remains unchanged. These results confirm that one or more heat-sensitive enzymes able to degrade LHRH may be present in the type 1 astrocyte-CM. As previously mentioned, the experiments reported so far were performed using type 1 astrocyte-CM that had been kept frozen for various periods of time, before being tested for its LHRH-releasing activity. Surprisingly, fresh CM proves to be inactive, whereas heated CM is effective; this suggests that the factor involved might be activated by the two opposite experimental procedures.(ABSTRACT TRUNCATED AT 400 WORDS)
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