A key response of the myocardium to stress is the secretion of factors with paracrine or endocrine function. Intriguing in this respect is peptidase inhibitor 16 (PI16), a member of the CAP family of proteins which we found to be highly upregulated in cardiac disease. Up to this point, the mechanism of action and physiological function of PI16 remained elusive. Here, we show that PI16 is predominantly expressed by cardiac fibroblasts, which expose PI16 to the interstitium via a glycophosphatidylinositol (-GPI) membrane anchor. Based on a reported genetic association of PI16 and plasma levels of the chemokine chemerin, we investigated whether PI16 regulates post-translational processing of its precursor pro-chemerin. PI16-deficient mice were engineered and found to generate higher levels of processed chemerin than wildtype mice. Purified recombinant PI16 efficiently inhibited cathepsin K, a chemerin-activating protease, in vitro. Moreover, we show that conditioned medium from PI16-overexpressing cells impaired the activation of pro-chemerin. Together, our data indicate that PI16 suppresses chemerin activation in the myocardium and suggest that this circuit may be part of the cardiac stress response.
A novel series of 30 symmetric bispyridinium and related N-heteroaromatic bisquaternary salts with a propane-1,3-diyl linker was synthesized and characterized for their binding affinity at the MB327 binding site of nicotinic acetylcholine receptor (nAChR) from Torpedo californica. Compounds targeting this binding site are of particular interest for research into new antidotes against organophosphate poisoning, as therapeutically active 4-tert-butyl-substituted bispyridinium salt MB327 was previously identified as a nAChR re-sensitizer. Efficient access to the target compounds was provided by newly developed methods enabling N-alkylation of sterically hindered or electronically deactivated heterocycles exhibiting a wide variety of functional groups. Determination of binding affinities toward the MB327 binding site at the nAChR, using a recently developed mass spectrometry (MS)-based Binding Assay, revealed that several compounds reached affinities similar to that of MB327 (pK =4.73±0.03). Notably, the newly prepared lipophilic 4-tert-butyl-3-phenyl-substituted bispyridinium salt PTM0022 (3 h) was found to have significantly higher binding affinity, with a pK value of 5.16±0.07, thus representing considerable progress toward the development of more potent nAChR re-sensitizers.
The current standard therapy to counteract organophosphate intoxication is not effective in equal measure against all types of organophosphorus compounds (OPCs), as the outcome of oxime‐induced reactivation of inactivated acetylcholinesterase (AChE) strongly depends on the particular OPC. In case the reactivation is insufficient, acetylcholine concentrations that rise to pathophysiological levels force the nicotinic acetylcholine receptor (nAChR) into a desensitized state and hence a functionally inactive state. As a consequence, neurotransmission is irreversibly disrupted at the neuromuscular junction. Previous electrophysiological studies identified the symmetric bispyridinium compound 1,1′‐(propane‐1,3‐diyl)bis[4‐(tert‐butyl)pyridin‐1‐ium] diiodide (MB327) as a re‐sensitizer of the desensitized nAChR. MB327 is thereby capable of restoring the functional activity. Very recently, in silico modeling studies suggested non‐symmetric derivatives of MB327 as potential re‐sensitizers with enhanced binding affinity and thus possible enhanced efficacy. In this study, 26 novel non‐symmetric bispyridinium compounds and related derivatives were synthesized. For the synthesis of the highly polar target compounds in sufficient quantities, newly developed and highly efficient two‐step procedures were used. Compounds were characterized in terms of their binding affinity toward the MB327 binding site at the nAChR using recently developed mass spectrometry (MS) Binding Assays. Regarding structure–affinity relationships at the MB327 binding site, the presence of two quaternary aromatic nitrogen centers as well as pyridinium systems with a tert‐butyl group at the 4‐position or a NMe2 group at the 3‐ or 4‐positions appeared to be beneficial for high binding affinities.
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