Relationships between obesity, bipolar spectrum features, and personality traits: a case-control study.

OBJECTIVE: Recently there has been widening stream of research on the relationships between obesity and mental disorders. Patients with obesity seem to be prone to developing bipolar spectrum disorders and they present with specific personality traits. The aim of this study was to analyze the associations between obesity, bipolarity features, and personality traits. PATIENTS AND METHODS: A nested case-control study was performed. Patients with obesity constituted the sample of cases (N = 90), and healthy individuals were ascribed to the control group (N = 70). The lifetime presence of bipolarity features was analyzed with the Mood Disorder Questionnaire (MDQ), while personality traits were assessed with the NEO-Five Factor Inventory (NEO-FFI). RESULTS: Bipolarity features were more prevalent in the patients with obesity, as compared to healthy individuals. Patients with obesity had both higher mean value of MDQ score (p = 0.01) and a higher proportion of subjects with MDQ score ≥ 7 points (p = 0.012) as well as lower score on the NEO-FFI openness to experience (p > 0.001), compared to control subjects. Using multivariate model, in patients with obesity, a significant positive correlation between bipolarity and neuroticism, and negative with agreeableness and conscientiousness was established. Such relationship was not observed in control subjects. CONCLUSIONS: In the population of patients with obesity, there is a specific combination between bipolarity and personality traits (high-trait neuroticism, low-trait conscientiousness, and low-trait agreeableness). This may have some consequences for both pharmacological and psychological management of such patients.

Lentivirus delivery of IL-10 to promote and sustain macrophage polarization towards an anti-inflammatory phenotype.

Gene delivery from biomaterials can create an environment that promotes and guides tissue formation. However, the immune response induced upon biomaterial implantation can be detrimental to tissue regeneration. Macrophages play a central role in mediating early phases of this response, and functional "polarization" of macrophages towards M1 (inflammatory) or M2 (anti-inflammatory) phenotypes may bias the local immune state at the implant site. Since gene delivery from biomaterial scaffolds can confer transgene expression in macrophages in vivo, we investigated whether transduction of macrophages with an IL-10 encoding lentivirus can (1) induce macrophage polarization toward an M2 phenotype even in an pro-inflammatory environment, and (2) prevent a shift in polarization from M2 to M1 following exposure to pro-inflammatory stimuli. IL-10 lentivirus delivery to pre-polarized M1 macrophages reduced TNF-α production 1.5-fold when compared to cells treated with either a control virus or a bolus delivery of recombinant IL-10 protein. IL-10 lentivirus delivery to naïve macrophages reduced the amount of TNF-α produced following an inflammatory challenge by 2.5-fold compared to cells treated with both the control virus and recombinant IL-10. At a mechanistic level, IL-10 lentivirus delivery mediated sustained reduction in NF-κB activation and, accordingly, reduced transcription of TNF-α. In sum, lentiviral delivery of IL-10 to macrophages represents a promising strategy for directing and sustaining macrophage polarization towards an M2 phenotype in order to promote local immune responses that facilitate tissue engineering.

Characterization of a novel protein inhibitor of protein kinases specific to acidic ribosomal proteins.

The ribosomal stalk composed of acidic P1/P2 proteins and protein P0 is involved directly in the interaction of the elongation factors and mRNAs with the ribosome during protein synthesis. All P proteins are found to be phosphorylated in eucaryotic organisms. In Saccharomyces cerevisiae five different cAMP-independent protein kinases phosphorylating P proteins have been identified and characterized. In contrast to many other protein kinases, relatively little is known about inhibitors of these enzymes. A new protein inhibitor of protein kinases has been purified and characterized. It is a small (18.5 kDa) and acidic (pI = 4.2) protein with high inhibitory potency for PK60S and CK 2. The inhibitor is competitive with respect to protein substrates with Ki values in the range of approximately 6.5 microM for PK60S and approximately 22 microM for CK 2.

Yeast protein phosphatase active with acidic ribosomal proteins.

A protein phosphatase dephosphorylating acidic ribosomal proteins was purified from Saccharomyces cerevisiae ribosome-free extract. It was shown that phosphoproteins from both P1 and P2 subfamilies as well as 60S "core" P0 protein were substrates for the enzyme. The phosphatase can dephosphorylate ribosomes as well as histones and casein but the two last substrates with significantly lower efficiency. It was found that the enzyme activity is Mn(2+)-dependent and inhibited by okadaic acid, tautomycin, cantharidin and nodularin at concentrations typical for protein phosphatase type 2A. The possible implications of those findings in the control of ribosome phosphorylation and therefore in the control of translation is discussed.

Specific protein kinase from Saccharomyces cerevisiae cells phosphorylating 60S ribosomal proteins.

A protein kinase, specific for 60S ribosomal proteins, has been isolated from Saccharomyces cerevisiae cells, purified to almost homogeneity and characterized. The isolated enzyme is not related to other known protein kinases. Enzyme purification comprised three chromatography steps; DEAE-cellulose, phosphocellulose and heparin-Sepharose. SDS/PAGE analysis of the purified enzyme, indicated a molecular mass of around 71 kDa for the stained single protein band. The specific activity of the protein kinase was directed towards the 60S ribosomal proteins L44, L44', L45 and a 38 kDa protein. All the proteins are phosphorylated only at the serine residues. None of the 40S ribosomal proteins were phosphorylated in the presence of the kinase. For that reason we have named the enzyme the 60S kinase. An analysis of the phosphopeptide maps of acidic ribosomal proteins, phosphorylated at either the 60S kinase or casein kinase II, showed almost identical patterns. Using the immunoblotting technique, the presence of the kinase has been detected in extracts obtained from intensively growing cells. These findings suggest an important role played by the 60S kinase in the regulation of ribosomal activity during protein synthesis.

Immunological properties and peptide mapping of two type I casein kinases from yeast.

Two protein kinases of Mr 43,000 and 23,000 from yeast, belonging to type-1 casein kinases, were purified to apparent homogeneity and used for investigation of their immunological affinity and for comparison of their peptide map patterns. The results obtained showed that antibodies against the 43 kDa kinase did not react with the 23 kDa enzyme. Moreover, the peptide maps of the radioiodinated kinases obtained either by chemical cleavage of peptide bonds in the presence of CNBr or by a limited digestion with V8 protease were completely different. All these observations point to the lack of relatedness between the two investigated enzymes.