Caveolae organelles and caveolin-1 protein expression are most abundant in adipocytes and endothelial cells. Our initial report on mice lacking caveolin-1 (Cav-1) demonstrated a loss of caveolae and perturbations in endothelial cell function. More recently, however, observation of the Cav-1-deficient cohorts into old age revealed significantly lower body weights, as compared with wild-type controls. These results suggest that Cav-1 null mice may have problems with lipid metabolism and/or adipocyte functioning. To test this hypothesis directly, we placed a cohort of wild-type and Cav-1 null mice on a high fat diet. Interestingly, despite being hyperphagic, Cav-1 null mice show overt resistance to diet-induced obesity. As predicted, adipocytes from Cav-1 null null mice lack caveolae membranes. Early on, a lack of caveolin-1 selectively affects only the female mammary gland fat pad and results in a near complete ablation of the hypo-dermal fat layer. There are also indications of generalized adipose tissue pathology. With increasing age, a systemic decompensation in lipid accumulation occurs resulting in dramatically smaller fat pads, histologically reduced adipocyte cell diameter, and a poorly differentiated/hypercellular white adipose parenchyma. To gain mechanistic insights into this phenotype, we show that, although serum insulin, glucose, and cholesterol levels are entirely normal, Cav-1 null mice have severely elevated triglyceride and free fatty acid levels, especially in the postprandial state. However, this build-up of triglyceriderich chylomicrons/very low density lipoproteins is not due to perturbed lipoprotein lipase activity, a major culprit of isolated hypertriglyceridemia. The lean body phenotype and metabolic defects observed in Cav-1 null mice are consistent with the previously proposed functions of caveolin-1 and caveolae in adipocytes. Our results show for the first time a clear role for caveolins in systemic lipid homeostasis in vivo and place caveolin-1/ caveolae as major factors in hyperlipidemias and obesity.
Caveolin-3, a muscle-specific caveolin-related protein, is the principal structural protein of caveolae membrane domains in striated muscle cells. Recently, we identified a novel autosomal dominant form of limbgirdle muscular dystrophy (LGMD-1C) in humans that is due to mutations within the coding sequence of the human caveolin-3 gene (3p25). These LGMD-1C mutations lead to an ϳ95% reduction in caveolin-3 protein expression, i.e. a caveolin-3 deficiency. Here, we created a caveolin-3 null (CAV3 ؊/؊) mouse model, using standard homologous recombination techniques, to mimic a caveolin-3 deficiency. We show that these mice lack caveolin-3 protein expression and sarcolemmal caveolae membranes. In addition, analysis of skeletal muscle tissue from these caveolin-3 null mice reveals: (i) mild myopathic changes; (ii) an exclusion of the dystrophin-glycoprotein complex from lipid raft domains; and (iii) abnormalities in the organization of the T-tubule system, with dilated and longitudinally oriented T-tubules. These results have clear mechanistic implications for understanding the pathogenesis of LGMD-1C at a molecular level.
Detection of human papillomavirus in head and neck cancer has therapeutic implications. In-situ hybridization and immuno-histochemistry for p16 are used by surgical pathologists. We compared the sensitivity and specificity of three popular commercial tests for human papillomavirus detection in head and neck squamous cell carcinomas to a “gold standard” human papillomavirus PCR assay. One hundred-and-ten prospectively collected, formalin fixed tumor specimens were compiled onto tissue microarrays and tested for human papillomavirus DNA by in-situ hybridization with two probe sets: a biotinylated probe for high-risk human papillomavirus types 16/18 (Dako, CA), and a probe cocktail for 16/18 plus 10 additional high-risk types (Ventana, AZ). P16INK4 expression was also assessed using a Pharmingen immuno-histochemistry antibody (BD Biosciences, CA). Tissue microarrays were stained and scored at expert laboratories. Human papillomavirus DNA was detected by MY09/11-PCR using Gold AmpliTaq and dot-blot hybridization on matched fresh frozen specimens in a research laboratory. Human papillomavirus 16 E6 and E7-RNA expression was also measured using RT-PCR. Test performance was assessed by receiver operating characteristic analysis. High-risk human papillomavirus DNA types 16, 18 and 35 were detected by MY-PCR in 28% of tumors, with the majority (97%) testing positive for type 16. Compared to MY-PCR, the sensitivity and specificity for high-risk human papillomavirus DNA detection with Dako in-situ hybridization was 21% (95%CI:7–42) and 100% (95%CI:93–100), respectively. Corresponding test results by Ventana in-situ hybridization were 59% (95%CI:39–78) and 58% (95%CI:45–71), respectively. P16 immuno-histochemistry performed better overall than Dako (p=0.042) and Ventana (p=0.055), with a sensitivity of 52% (95%CI:32–71) and specificity of 93% (95%CI:84–98). Compared to a gold standard human papillomavirus PCR assays, HPV detection by in-situ hybridization was less accurate for head and neck squamous cell carcinoma on tissue microarrays than p16 immuno-histochemistry. Further testing is warranted before these assays should be recommended for clinical human papillomavirus detection.
This is an Open Access article under the CC BY license.
To identify candidate genes involved in the development of colorectal cancer, we used cDNA microarrays to analyze gene expression differences between human colorectal tumors and paired adjacent normal mucosa. We identified approximately 3.5-fold significant downregulation of selenium-binding protein 1 (SBP1) in colorectal tumors compared to normal mucosa (p = 0.003). Importantly, stage III colorectal cancer patients with low tumor-SBP1 expression had significantly shorter disease-free and overall survival as compared with those patients with high tumor-SBP1 expression (p = 0.04 and 0.03, respectively). We further characterized the role of SBP1 in colorectal cancer in vivo and in vitro. In normal tissue, SBP1 was maximally expressed in terminally differentiated epithelial cells on the luminal surface of crypts in the large intestine. Consistent with this in vivo localization, SBP1 was upregulated during in vitro colonic cell differentiation along the absorptive (Caco-2) and secretory (HT29 Clones 16E and 19A) cell lineages. Downregulation (approximately 50%) of SBP1 expression by small interfering RNA in colonic cancer cells was associated with reduced expression of another epithelial differentiation marker, carcinoembryonic antigen (CEA), although PCNA and p21(WAF1/cip1 )expression were not altered. These data demonstrate that higher expression of SBP1 is associated with differentiation of the normal colonic epithelia and may be a positive prognostic factor for survival in stage III colorectal carcinoma.
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