Publications by authors named "Travis van der Steen"
Androgen receptor splice variants (AR-Vs)--which are expressed in castration-resistant prostate cancer (CRPC) cell lines and clinical samples--lack the C-terminal ligand-binding domain and are constitutively active. AR-Vs are, therefore, resistant to traditional androgen deprivation therapy (ADT). AR-Vs are induced by several mechanisms, including ADT, and might contribute to the progression of CRPC and resistance to ADT.
View Article and Find Full Text PDFPurpose: Spliced variant forms of androgen receptor were recently identified in castration resistant prostate cancer cell lines and clinical samples. We identified the cistrome and gene signature of androgen receptor splice variants in castration resistant prostate cancer cell lines and determined the clinical significance of androgen receptor splice variant regulated genes.
Materials And Methods: The castration resistant prostate cancer cell line 22Rv1, which expresses full-length androgen receptor and androgen receptor splice variants endogenously, was used as the research model.
The androgen receptor (AR) is important in the development of the prostate by regulating transcription, cellular proliferation, and apoptosis. AR undergoes posttranslational modifications that alter its transcription activity, translocation to the nucleus and stability. The posttranslational modifications that regulate these events are of utmost importance to understand the functional role of AR and its activity.
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- Vasoactive intestinal peptide receptor-1 (VPAC1) in lymphocytes influences various functions like movement, growth, and death of cells, but the relationship between its mRNA and protein levels during T cell activation is not fully understood.
- Researchers created a specific antibody for mouse VPAC1 to study its protein levels using flow cytometry, after noting a gap in available reagents.
- The newly developed rabbit α-mouse VPAC1 antibody was tested and shown to be specific to mouse VPAC1, allowing for the detection of VPAC1 protein in resting mouse T cells, which decreases upon activation, confirming previous studies on VPAC1 mRNA expression.
More than 40 years after the discovery of vasoactive intestinal peptide (VIP), its transcriptome in the immune system has still not been completely elucidated. In an attempt to understand the biological role of this neuropeptide in immunity, we chose CD4 T cells as a cellular system. Agilent Mouse Whole Genome microarrays were hybridized with fluorescently labeled total RNA isolated from resting CD4 T cells cultured +/-10(-7)M VIP for 5h or PMA/ionomycin activated CD4 T cells cultured +/-10(-7)M VIP for 5h.
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