Effects of methyl derivatives of the rexinoid UAB30 on methylnitrosourea (MNU) induced mammary cancers and on various indicators of toxicity.

Abstract

Abstract Abstract #1108 UAB30 is a RXR selective retinoid that has shown excellent activity in preventing chemically-induced mammary cancers with minimal toxicity (specifically not increasing serum triglycerides), and is currently undergoing a Phase I clinical trial. Several methyl analogs were synthesized in an attempt to obtain a more active preventive agent and to better understand the mechanisms of activity/toxicity of this class of agents. The retinoids included 4-methyl-UAB30, 5-methyl-UAB30, 6-methyl-UAB30, 7-methyl-UAB30, and 8-methyl-UAB30. The compounds were evaluated in the MNU-induced mammary cancer model using female Sprague-Dawley rats. MNU (75 mg/kg BW) was administered at 50 days of age and the animals observed for 120 days afterward for the development of ER+ mammary cancers. The retinoids were given at a dose of 200 mg/kg diet, except 7-methyl-UAB30 (given at 100 mg/kg diet). 4-Methyl-UAB30 and 7-methyl-UAB30 were highly active; reducing mammary cancer multiplicity by 74 and 61%, respectively. The retinoids 5-methyl-UAB30, 6-methyl-UAB30, and 8-methyl-UAB30 did not have chemopreventive activity in this model. The 8-methyl-UAB30 derivative actually caused a 108% increase in growth of the mammary cancers. As we have previously shown (Carcinogenesis 27, 1232-1239, 2006), serum triglycerides correlated with cancer preventive activity; i.e., high levels were observed with active retinoids. 4-methyl-UAB30 caused an initial large increase in body weight gain of the rats. Of interest, serum levels of 6-methyl-UAB30 and 7-methyl-UAB30 were high, while the other agents were low or could not be detected. All methyl derivatives caused varying decreases in liver retinyl palmitate levels. Structure-activity relationships are also being evaluated using crystallography of RXR/UAB-rexinoid complexes as a guide. Structure-based and dynamic-based approaches are used to facilitate the design of new rexinoids that fit into the LBD of RXRs. For example, 4-methyl-UAB30 had a 5-fold greater binding affinity to hRXR alpha LBD than 9-cis-retinoic-acid. These studies emphasize that minor modifications of a retinoid molecule can drastically change its absorption, metabolism, toxicity, binding affinities to receptors, and activity in preventing mammary cancers. (Supported by NCI Breast SPORE CA089019 and contract HHSN261200433001C). Citation Information: Cancer Res 2009;69(2 Suppl):Abstract nr 1108.