To identify molecules to serve as diagnostic markers for renal cell carcinoma (RCC) and as targets for novel therapeutic drugs, we investigated genome-wide expression profiles of RCCs using a cDNA microarray. We subsequently confirmed that hypoxia-inducible protein-2 (HIG2) was expressed exclusively in RCCs and fetal kidney. Induction of HIG2 cDNA into COS7 cells led to secretion of the gene product into culture medium and resulted in enhancement of cell growth. Small interfering RNA effectively inhibited expression of HIG2 in human RCC cells that endogenously expressed high levels of the protein and significantly suppressed cell growth. Moreover, addition of polyclonal anti-HIG2 antibody into culture medium induced apoptosis in RCC-derived cell lines. By binding to an extracellular domain of frizzled homologue 10 (FZD10), HIG2 protein enhanced oncogenic Wnt signaling and its own transcription, suggesting that this product is likely to function as an autocrine growth factor. ELISA analysis of clinical samples identified secretion of HIG2 protein into the plasma of RCC patients even at an early stage of tumor development, whereas it was detected at significantly lower levels in healthy volunteers or patients with chronic glomerulonephritis. The combined evidence suggests that this molecule represents a promising candidate for development of molecular-targeting therapy and could serve as a prominent diagnostic tumor marker for patients with renal carcinomas. (Cancer Res 2005; 65(11): 4817-26)
To evaluate diurnal variation of plasma bone markers, blood samples were
collected from five calves at 2-hr intervals throughout a 24-hr period. Tartrate-resistant
acid phosphatase isoform 5b (TRAP5b), carboxy-terminal collagen crosslinks of type-I
collagen (CTX), hydroxyproline, bone specific alkaline phosphatase (BALP) and osteocalcin
were measured. Cosinor analysis showed a significant rhythm in all bone markers. The
acrophase of each bone marker appeared from the early to late morning. The percentage
ratio of the amplitude to mesor and the within-subject variability for CTx and osteocalcin
were significantly larger than those for TRAP5b and BALP. This marked diurnal variation in
five bone markers suggested that the time of blood sampling should be fixed when studying
bone marker concentrations in bovine plasma.
Patients with EGFR‐mutated non‐small cell lung cancer (NSCLC) exhibit resistance to EGFR‐tyrosine kinase inhibitors (TKIs) within 9–14 months of therapy. Recently, EGFR‐mutated NSCLC has demonstrated the potential for heterogeneity; therefore, the manner of clonal heterogeneity may impact the duration of progression‐free and overall survival and other parameters affecting EGFR‐TKI treatment efficacy. However no predictive biomarker of these favorable treatment efficacies has been identified to date. The exosome‐focused translational research for afatinib (EXTRA) study aims to identify a novel predictive biomarker and a resistance marker for afatinib by analyzing data from association studies of the clinical efficacy of afatinib and four “OMICs” (genomics, proteomics, epigenomics, and metabolomics) using peripheral blood from patients treated with afatinib. This study aims to: (i) conduct comprehensive multi‐OMIC analyses in a prospective clinical trial, and (ii) focus on both sera/plasma and exosome as a source for OMIC analyses to identify a novel predictor of the efficacy of a specific drug. To eliminate the carryover bias of prior treatment, systemic treatment‐naïve patients were enrolled. The candidates to be screened for biomarkers comprise a discovery cohort of 60 patients and an independent validation cohort of 40 patients. The EXTRA study is the first trial to screen novel biomarkers of longer treatment efficacy of EGFR‐TKIs using four‐OMICs analyses, focusing on both “naked or free” molecules and “capsulated” exosomal components in serially collected peripheral blood.
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