2 research outputs found
Prosaposin activates the androgen receptor and potentiates resistance to endocrine treatment in breast cancer.
INTRODUCTION: HOX genes play vital roles in growth and development, however, atypical redeployment of these genes is often associated with steroidal adaptability in endocrine cancers. We previously identified HOXC11 to be an indicator of poor response to hormonal therapy in breast cancer. In this study we aimed to elucidate genes regulated by HOXC11 in the endocrine resistant setting.
METHODS: RNA-sequencing paired with transcription factor motif-mapping was utilised to identify putative HOXC11 target genes in endocrine resistant breast cancer. Validation and functional evaluation of the target gene, prosaposin (PSAP), was performed in a panel of endocrine sensitive and resistant breast cancer cell lines. The clinical significance of this finding was explored in clinical cohorts at both mRNA and protein level.
RESULTS: PSAP was shown to be regulated by HOXC11 in both tamoxifen and aromatase inhibitor (AI) resistant cell lines. Transcript levels of HOXC11 and PSAP correlated strongly in samples of primary breast tumours (r = 0.7692, n = 51). PSAP has previously been reported to activate androgen receptor (AR) in prostate cancer cells. In a panel of breast cancer cell lines it was shown that endocrine resistant cells exhibit innately elevated levels of AR compared to their endocrine sensitive counterparts. Here, we demonstrate that stimulation with PSAP can drive AR recruitment to a hormone response element (HRE) in AI resistant breast cancer cells. Functionally, PSAP promotes cell migration and invasion only in AI resistant cells and not in their endocrine sensitive counterparts. In a cohort of breast cancer patients (n = 34), elevated serum levels of PSAP were found to associate significantly with poor response to endocrine treatment (p = 0.04). Meta-analysis of combined PSAP and AR mRNA are indicative of poor disease-free survival in endocrine treated breast cancer patients (hazard ratio (HR): 2.2, P = 0.0003, n = 661).
CONCLUSION: The HOXC11 target gene, PSAP, is an AR activator which facilitates adaptation to a more invasive phenotype in vitro. These findings have particular relevance to the development of resistance to AI therapy which is an emerging clinical issue. PSAP is a secreted biomarker which has potential in identifying patients failing to exhibit sustained response to hormonal treatment
Identification of cell surface-specific markers to target human nucleus pulposus cells: expression of carbonic anhydrase xii varies with age and degeneration
Objective Back pain is a major cause of disability, affecting millions of people worldwide. One cause of axial back pain is degeneration of the nucleus pulposus (NP) of the intervertebral disc. This study was undertaken to investigate associations of NP cells with cell surfacespecific proteins that differ from proteins in closely related cell types, i.e., intervertebral disc anulus fibrosus (AF) cells and articular cartilage (AC) chondrocytes, in order to identify potential surface molecules for directed delivery of therapeutic agents.
Methods. We conducted a complementary DNA microarray analysis of 16 human samples from 6 donors, followed by gene list reduction using a systematic approach. Genes that were more highly expressed in NP than AC cells, contained transmembrane domains, and appeared attractive for targeting were assessed by quantitative reverse transcription-polymerase chain reaction (RT-PCR). As a viable candidate, carbonic anhydrase XII (CAXII) was analyzed at the protein level by immunohistochemistry and functional study.
Results. Microarray results demonstrated a clear divide between the AC and AF and between the AC and NP samples. However, the transcriptomic profile of AF and NP samples displayed a greater intersubject similarity. Of the 552 genes with up-regulated expression in NP cells, 90 contained transmembrane domains, and 28 were quantified by RT-PCR. Most intense CAXII labeling was observed in the NP of discs from young subjects and in degenerative tissue.
Conclusion. CAXII may be considered for detection or targeting of degenerating disc cells. Furthermore, CAXII may be involved in pH regulation of NP cells. Its potential for directed delivery of regenerative factors and its functional role in NP cell homeostasis warrant further investigation