We have identified the transforming acidic coiled-coil protein-3 (Tacc3) as a binding partner for Notch4/Int3 and were able to show that it binds to the intracellular domain (ICD) of all members of th Show more
We have identified the transforming acidic coiled-coil protein-3 (Tacc3) as a binding partner for Notch4/Int3 and were able to show that it binds to the intracellular domain (ICD) of all members of the Notch receptor family. Members of the Tacc family reside at the centrosomes and associates with microtubules. Recent studies suggest that Tacc3 also contributes to the regulation of gene transcription. Tacc3 specifically interacts with the Notch4/Int3 CDC10/Ankyrin repeats and to a lesser extent, with residues C-terminal to these repeats in the ICD. Dual label immunofluorescence of mouse mammary tissue shows Tacc3 co-localizes with the Notch3 ICD. Co-immunoprecipitation of endogenous Notch and Tacc3 proteins from NIH3T3 cell extracts, lung and mammary gland confirms that these two proteins interact under physiological conditions. In addition, knock down of Tacc3 in NIH3T3 cells leads to the up-regulation of Hey2, a target gene for Notch signaling. The affinity of Tacc3 binding to Notch4/Int3 ICD is similar to that between Rbpj and Notch4/Int3 ICD. Notch4/Int3 ICD-Tacc3 interaction results in the inhibition of transcription from a Hes1-Luciferase reporter vector in COS-1 cells. The inhibition was reversed in these cells by increasing the levels of Rbpj. Taken together, these results suggest that Tacc3 is a negative regulator of the Notch signaling pathway. Show less
The activity of telomerase, an enzyme that synthesizes telomeric repeats at the ends of chromosomes, is not detectable in normal human prostate. However, the majority of human prostate cancers exhibit Show more
The activity of telomerase, an enzyme that synthesizes telomeric repeats at the ends of chromosomes, is not detectable in normal human prostate. However, the majority of human prostate cancers exhibit telomerase activity. Since androgens play a major role in prostate tumorigenesis, we investigated the effect of androgen-depletion on the expression of telomerase activity in the prostate. Adult male rhesus monkeys were either bilaterally castrated or subjected to sham surgery (n = 5 each). Approximately 6 weeks later, the animals were killed and the different regions of the prostate gland were removed and frozen immediately. Telomerase activity was assayed using the telomeric repeat amplification protocol. All five regions of the prostate from sham operated control animals failed to exhibit telomerase activity. In the castrated monkey, all regions of the prostate, except for the anterior lobe, expressed high levels of telomerase activity. Our results indicate that in monkeys, androgen-ablation leads to up-regulation of telomerase activity. The negative-regulation of telomerase activity by androgens is probably lost during prostate tumorigenesis. Show less