MTA1

Estrogen receptor (ER)-alpha interacts with nuclear proteins to mediate its multiple functions in the brain. However, it is not known which proteins interact with the ERalpha-transactivation domain (TAD) in mouse brain and whether they change with age and sex. Therefore, we have used affinity-purified GST-tagged mouse ERalpha-TAD fusion protein for interaction with nuclear proteins from the mouse brain. The pull-down assay and far-Western blotting detected four nuclear proteins of 100, 80, 68, and 50 kD. We have recently identified the 80-kD protein as MTA1 and demonstrated its decrease in old age. Here we report alteration in the interaction and expression of the 68-kD protein of adult and old mice of both sexes. This protein was identified as p68 RNA helicase through NCBI database search, immunoprecipitation, and immunoblotting. Further analysis showed that the extent of its interaction was relatively lower in old mice of both sexes and in male mice of both ages compared with their counterparts. However, the expression of p68 was significantly lower in old males compared with adult males, although other groups did not show significant changes. Such age- and sex-specific interaction of p68 suggests its implication in ERalpha-mediated brain functions during aging.

MeSH Terms

• Aging
• Animals
• Blotting, Far-Western
• Brain
• DEAD-box RNA Helicases
• Densitometry
• Estrogen Receptor alpha
• Female
• Immunoprecipitation
• Male
• Mice
• Mice, Inbred AKR
• Protein Structure, Tertiary
• Sex Characteristics

We have reported earlier that estrogen receptor (ER) alpha-transactivation domain (TAD) interacted with four nuclear proteins of 100 kD, 80 kD, 68 kD, and 50 kD of mouse brain and identified 68 kD as p68 RNA helicase and 50 kD as beta-tubulin. In this paper, we describe the identification of 80 kD nuclear protein as metastasis associated protein 1 (MTA1) and its interaction and expression in the brain of aging mice. Far-Western blotting and immunoprecipitation data revealed lower interaction of MTA1 in old than adult mice of both sexes. Furthermore, adult male showed lower expression of protein as compared to adult female. Altogether these findings suggest that age-dependent decrease in the expression of MTA1 and its interaction with ERalpha-TAD may influence the estrogen-mediated signaling pathway during aging of mouse brain.

MeSH Terms

• Aging
• Animals
• Brain
• Estrogen Receptor alpha
• Female
• Male
• Mice
• Protein Structure, Tertiary
• Repressor Proteins
• Trans-Activators
• Transcription Factors