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Vol. 57, Issue 4, 718-724, April 2000
Departments of Neurobiology (D.Y., Y.K., N.B.-A.) and Organic
Chemistry (D.Y., M.F.), Weizmann Institute of Science, Rehovot, Israel
In the course of our studies toward the development of novel
analogs of the decapeptide gonadotropin releasing hormone (GnRH), we
have examined a hexapeptide that is an antagonist of endothelin (ET).
It was found that this peptide,
Ac-D-Trp-Leu-Asp-Ile-Ile-Trp (peptide 1), binds
specifically to the pituitary GnRH receptor. Moreover, peptide 1 exhibits a GnRH agonistic activity (i.e., it induces luteinizing
hormone release from rat pituitary). This activity is mediated directly
by the GnRH receptor and is suppressed by a GnRH antagonist. Removal of
the acetyl group of peptide 1 results in a hexapeptide (peptide 2) with
binding properties similar to those of GnRH but with a diminished
affinity toward the ET receptor. Several other ET antagonists were
screened for a potential interaction with the GnRH receptor. Two of
these, the hexapeptide PD145065 and the cyclic pentapeptide BQ-123,
expressed GnRH agonistic activity at micromolar concentrations in
vitro. BQ-123, previously approved for trials on humans as an ET
antagonist, is demonstrated to act in vivo as a GnRH agonist, in a dose
that was demonstrated previously as the minimal required dose for
significant ET antagonism. The GnRH agonistic activity of ET
antagonists may therefore result in interference with the physiological
control of the reproductive system. Such effects may be most severe
when ET antagonists are used chronically. Thus, the major practical
message of this study is the need to circumvent the potential side
effects of ET antagonist-based drugs.
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