Increased Energy Expenditure, Lipolysis and Hyperinsulinemia Confer Resistance to Central Obesity and Type 2 Diabetes in Mice Lacking Alpha2α-Adrenoceptors.

The alpha2A-adrenoceptors (α2A-ARs) are Gi-coupled receptors, which prejunctionally inhibit the release of norepinephrine (NE) and epinephrine (Epi), and postjunctionally inhibit insulin secretion and lipolysis. We have earlier shown that α2A-/- mice display sympathetic hyperactivity, hyperinsulinemia and improved glucose tolerance. Here we employed α2A-/- mice and placed the mice on a high-fat diet (HFD) to test the hypothesis that lack of α2A-ARs protects from diet-induced obesity and type 2 diabetes (T2D). In addition, a high-caloric diet was combined with running wheel exercise to test the interaction of diet and exercise. HFD was obesogenic in both genotypes, but α2A-/- mice accumulated less visceral fat than the wild-type controls, were protected from T2D, and their insulin secretion was unaltered by the diet. Lack of α2A-ARs is associated with an increased sympatho-adrenal tone, which resulted in increased energy expenditure and fat oxidation rate potentiated by HFD. Fittingly, α2A-/- mice displayed enhanced lipolytic responses to Epi, and increased faecal lipids suggesting altered fat mobilization and absorption. Subcutaneous white fat appeared to be thermogenically more active (measured as Ucp1 mRNA expression) in α2A-/- mice, and brown fat showed an increased response to NE. Exercise was effective in reducing total body adiposity and increasing lean mass in both genotypes, but there was a significant diet-genotype interaction, as even modestly increased physical activity combined with lack of α2A-AR signalling promoted weight loss more efficiently than exercise with normal α2A-AR function. These results suggest that blockade of α2A-ARs may be exploited to reduce visceral fat and to improve insulin secretion.

Plasma matrix metalloproteinase 1, 3, and 7 levels and breast cancer risk in the Nurses' Health study.

PURPOSE: Matrix metalloproteinases (MMPs), in particular MMP1, 3, and 7, are believed to be critical to breast cancer invasion and metastasis and also may have important functions earlier in breast carcinogenesis. However, the relationship between circulating levels of MMP1, 3, and 7 and breast cancer risk is uncertain. METHODS: We examined associations between plasma MMP1, 3, and 7 and breast cancer risk in a prospective case-control study nested within the Nurses' Health Study. Blood samples were collected from 801 cases who developed breast cancer between 1992 and 2000 and 801 matched controls, and MMP levels were measured via immunofluorescence assay. RESULTS: No overall association was observed between any of these MMPs and breast cancer risk [top vs. bottom quintile; MMP1: odds ratio (OR) 0.9; 95 % confidence interval (CI) 0.7, 1.3; p-trend = 0.51; MMP3: OR 1.1; 95 % CI 0.8, 1.5; p-trend = 0.88; MMP7: OR = 1.2; 95 % CI 0.8, 1.7; p-trend = 0.18]. Further, findings did not significantly vary by time since blood draw, body mass index, or postmenopausal hormone use, or by breast cancer subtypes. CONCLUSIONS: Circulating MMP1, 3, and 7 levels do not appear to be predictive of overall breast cancer risk.

Moving the solid phase: a platform technology for cartridge based sandwich immunoassays.

We report on a cartridge based platform for complex immunoassay formats that allows for flexible adaption of individual steps. It is a sample-to-answer system which is quantitative as well as sensitive. The target molecules are detected through a magnetic bead-based fluorescence sandwich immunoassay. The beads both constitute the solid phase for immobilizing capture molecules and are used for magnetic field activated incubation. The injection molded cartridge comprises several chambers separated by capillary valves. Chambers contain the assay reagents, through which the beads are manipulated via externally applied magnetic fields. Active incubation is made possible by assembling the beads into microstirrers and systematically scanning through a chamber. The beads are transported by focusing them to form an aggregate which subsequently is dragged through the valves. Once the aggregate enters a chamber, it is re-dispersed and magnetic actuation is used to re-assemble the beads into microstirrers. The assay protocol involves an incubation of sample with antibody coated magnetic beads, followed by steps for washing or separation, labeling with fluorescent detection antibody and finally fluorescence detection. An interleukin-8 assay served as a model for evaluating the system and a concentration as low as 5 pg/mL (0.625 pM) was successfully detected. The platform shows potential to be developed into a diagnostic tool to be used in a point-of-care testing (PoCT) environment.

Plasma matrix metalloproteinase 2 levels and breast cancer risk.

Matrix metalloproteinase 2 (MMP2) is an enzyme with important functions in breast cancer invasion and metastasis. However, it is unclear whether circulating MMP2 levels may predict breast cancer risk. We conducted a prospective nested case-control analysis in the Nurses' Health Study among 1136 cases who were diagnosed with invasive breast cancer between 1992 and 2004 and 1136 matched controls. All participants provided blood samples in 1989-1990, and a subset (170 cases, 170 controls) contributed an additional sample in 2000-2002. Pre-diagnostic plasma MMP2 levels were measured via immunoassay, and conditional logistic regression was performed to calculate odds ratios (ORs) and 95% confidence intervals (95% CIs), adjusted for breast cancer risk factors. No association was observed between plasma MMP2 levels and risk of total invasive breast cancer (top vs. bottom quartile, OR=1.0; 95% CI: 0.7, 1.2; p-trend=0.89). Findings did not vary significantly by time since blood draw, body mass index, postmenopausal hormone use, or menopausal status at either blood draw or breast cancer diagnosis. MMP2 was associated with a greater risk of nodal metastases at diagnosis (top vs. bottom quartile, OR=1.5; 95% CI: 1.0, 2.2; p-heterogeneity, any vs. no lymph nodes=0.002), but no significant associations were observed with other tumor characteristics or with recurrent or fatal cancers. Plasma MMP2 levels do not appear to be predictive of total invasive breast cancer risk, although associations with aggressive disease warrant further study.

Characterization of immunologically active drugs in a novel organotypic co-culture model of the human gut and whole blood.

The human immune system represents a highly complex multicellular network that protects the organism against the environment and pathogens. Within this system, different immune cells communicate with each other, as well as with adjacent organs and tissues, using an impressive network of regulatory signals. This inherent complexity makes it rather difficult to mimic these processes in vitro. Unpredictable drug-induced side effects can be the consequence when moving from preclinical animal models into clinical phase. Therefore, there is a demand for more elaborate in vivo like human cell culture models. In this study, an in vitro co-culture model consisting of Caco-2 human gut epithelial cells and human whole blood representing the immune system is applied to investigate the intestinal absorption of anti-inflammatory drugs and the subsequent modulation of the immunoregulatory signaling processes. By using blood of different donors, the individuality of the immune system is integrated into the overall analysis. The anti-inflammatory drugs prednisolone and ibuprofen were applied on top of the Caco-2 epithelial cells and alterations in the extracellular communication via cytokines and chemokines were visualized using miniaturized multiplexed sandwich immunoassays. Optionally, pretreatment of the Caco-2 epithelial cells with pro-inflammatory mediators can be used to modulate the epithelial barrier function similar to the situation observed during inflammatory conditions of the gut. The presented translational test system, consisting of differentiated Caco-2 intestinal epithelial cells and whole blood substantially improves preclinical screening of immunologically active drugs with respect to an approximation of the human "in vivo" conditions.