Targeting protein–protein interactions within the cyclic AMP signaling system as a therapeutic strategy for cardiovascular disease

The cAMP signaling system can trigger precise physiological cellular responses that depend on the fidelity of many protein–protein interactions, which act to bring together signaling intermediates at defined locations within cells. In the heart, cAMP participates in the fine control of excitation–contraction coupling, hence, any disregulation of this signaling cascade can lead to cardiac disease. Due to the ubiquitous nature of the cAMP pathway, general inhibitors of cAMP signaling proteins such as PKA, EPAC and PDEs would act non-specifically and universally, increasing the likelihood of serious ‘off target’ effects. Recent advances in the discovery of peptides and small molecules that disrupt the protein–protein interactions that underpin cellular targeting of cAMP signaling proteins are described and discussed

Advances in targeting cyclic nucleotide phosphodiesterases

Cyclic nucleotide phosphodiesterases (PDEs) catalyse the hydrolysis of cyclic AMP and cyclic GMP, thereby regulating the intracellular concentrations of these cyclic nucleotides, their signalling pathways and, consequently, myriad biological responses in health and disease. Currently, a small number of PDE inhibitors are used clinically for treating the pathophysiological dysregulation of cyclic nucleotide signalling in several disorders, including erectile dysfunction, pulmonary hypertension, acute refractory cardiac failure, intermittent claudication and chronic obstructive pulmonary disease. However, pharmaceutical interest in PDEs has been reignited by the increasing understanding of the roles of individual PDEs in regulating the subcellular compartmentalization of specific cyclic nucleotide signalling pathways, by the structure-based design of novel specific inhibitors and by the development of more sophisticated strategies to target individual PDE variants

A comparison of the pharmacology of two potent analgesic agents, piminodine (Win 14,098-2) and Win 13,797, with morphine and meperidine

The toxic and lethal effects of piminodine and Win 13,797 were studied in mice, dogs, and monkeys. The analgesic actions of both drugs were tested in mice and rats and were found to be more potent than morphine.Vascular studies on pimincdine and Win 13,797 have shown peripheral vasodilation and acute vascular tolerance to the hypotensive effect in dogs with partial crossed tolerance to morphine. Dogs anesthetized with pentobarbital were sensitive to the respiratory depressant actions of these drugs. Nalorphine readily antagonizes this respiratory depression.Piminodine and Win 13,797 are myocardial depressants on the dog heart-lung preparation and the cat papillary muscle, but only in doses or concentrations much higher than would be used therapeutically.The actions of piminodine and Win 13,797 on the isolated rabbit jejunal segment are minimal.The qualitative actions of piminodine and Win 13,797 on EEG effects in dogs with chronically implanted electrodes were like those of morphine. Quantitatively, Win 13,797 was equipotent to morphine, and piminodine one-half as effective.Studies on single-dose suppression in monkey and primary physical dependence in dogs and monkeys indicate that piminodine and Win 13,797 have high addiction liability at least in these species.Nearly all the administered piminodine or Win 13,797 is altered chemically when injected into dogs. There is no evidence for marked local tissue deposition for either drug.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/32367/1/0000442.pd

Acute Spotted Fever Rickettsiosis among Febrile Patients, Cameroon

Although potential arthropod vectors are abundant in Cameroon, acute febrile illnesses are rarely evaluated for arboviral or rickettsial infections. Serum samples from 234 acutely febrile patients at clinics in Tiko and Buea, Cameroon, were examined for antibodies to Rickettsia africae and African alphaviruses and flaviviruses. These serum samples did not contain antibodies against typhoid, and blood malarial parasites were not detected. Serum samples of 32% contained immunoglobulin M antibodies reactive with R. africae by immunofluorescence assay and were reactive with outer membrane proteins A and B of R. africae by immunoblotting. These findings established a diagnosis of acute rickettsiosis, most likely African tick-bite fever. Hemagglutination inhibition testing of the serum samples also detected antibodies to Chikungunya virus (47%) and flaviviruses (47%). High prevalence of antibodies to arboviruses may represent a major, previously unrecognized public health problem in an area where endemic malaria and typhoid fever have been the principal diagnostic considerations

Portraying the nature of corruption: Using an explorative case-study design

What is the nature of corruption in Western democracies? To answer this research question, the authors study 10 Dutch corruption cases in depth, looking at confidential criminal files. The cases allow them to sketch a general profile of a corruption case. The authors offer nine propositions to portray the nature of corruption. They conclude that corruption usually takes place within enduring relationships, that the process of becoming corrupt can be characterized as a slippery slope, and that important motives for corruption, aside from material gain, include friendship or love, status, and the desire to impress others. The explorative multiple case study methodology helps to expand our understanding of the way in which officials become corrupt. © 2008 The American Society for Public Administration

History, Commemoration, and Belief: Abraham Lincoln in American Memory, 1945-2001

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/91765/1/Schuman-History_Commemoration_Belief.pd

Macrophage-NLRP3 activation promotes right ventricle failure in pulmonary arterial hypertension

Rationale: Pulmonary arterial hypertension (PAH) often results in death from right ventricular failure (RVF). NLRP3-macrophage activation may promote RVF in PAH. Objectives: Evaluating the contribution of the NLRP3 inflammasome in RV-macrophages to PAH-RVF. Methods: Rats with decompensated RV hypertrophy (RVH) [monocrotaline (MCT) and Sugen-5416 hypoxia (SuHx)] were compared with compensated RVH rats [pulmonary artery banding (PAB)]. Echocardiography and right heart catheterization were performed. Macrophages, atrial natriuretic peptide (ANP) and fibrosis were evaluated by microscopy or flow cytometry. NLRP3 inflammasome activation and cardiotoxicity were confirmed by immunoblot and in vitro strategies. MCT-rats were treated with SC-144 (a GP130 antagonist) and MCC950 (an NLRP3 inhibitor). Macrophage-NLRP3 activity was evaluated in PAH-RVF patients. Measurements and Main Results: Macrophages, fibrosis, and ANP were increased in MCT and SuHx-RVs but not LVs or PAB rats. While MCT-RV macrophages were inflammatory, lung macrophages were anti-inflammatory. CCR2+ macrophages (monocyte-derived) were increased in MCT- and SuHx-RVs and highly expressed NLRP3. The macrophage-NLRP3 pathway was upregulated in PAH patients’ decompensated RVs. Cultured MCT-monocytes showed NLRP3 activation, and in co-culture experiments resulted in cardiomyocyte mitochondrial damage, which MCC950 prevented. In vivo, MCC950 reduced NLRP3 activation and regressed pulmonary vascular disease and RVF. SC-144 reduced RV-macrophages and NLRP3 content, prevented STAT3 activation, and improved RV function without regressing pulmonary vascular disease. Conclusion: NLRP3-macrophage activation occurs in the decompensated RV in preclinical PAH models and PAH patients. Inhibiting GP130 or NLRP3 signaling improves RV function. The concept that PAH-RVF results from RV inflammation rather than solely from elevated RV afterload suggest a new therapeutic paradigm

Correction: Expanding the clinical phenotype of individuals with a 3-bp in-frame deletion of the NF1 gene (c.2970_2972del): an update of genotype–phenotype correlation

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Physiological Correlates of Volunteering

We review research on physiological correlates of volunteering, a neglected but promising research field. Some of these correlates seem to be causal factors influencing volunteering. Volunteers tend to have better physical health, both self-reported and expert-assessed, better mental health, and perform better on cognitive tasks. Research thus far has rarely examined neurological, neurochemical, hormonal, and genetic correlates of volunteering to any significant extent, especially controlling for other factors as potential confounds. Evolutionary theory and behavioral genetic research suggest the importance of such physiological factors in humans. Basically, many aspects of social relationships and social activities have effects on health (e.g., Newman and Roberts 2013; Uchino 2004), as the widely used biopsychosocial (BPS) model suggests (Institute of Medicine 2001). Studies of formal volunteering (FV), charitable giving, and altruistic behavior suggest that physiological characteristics are related to volunteering, including specific genes (such as oxytocin receptor [OXTR] genes, Arginine vasopressin receptor [AVPR] genes, dopamine D4 receptor [DRD4] genes, and 5-HTTLPR). We recommend that future research on physiological factors be extended to non-Western populations, focusing specifically on volunteering, and differentiating between different forms and types of volunteering and civic participation