P2X receptors are non-selective cation channels gated by extracellular ATP, and the P2X7 receptor subtype plays a crucial role in the immune and nervous systems. Altered expression and dysfunctions of P2X7 receptors caused by genetic deletions, mutations, and polymorphic variations have been linked to various diseases, such as rheumatoid arthritis and hypertension. Despite the availability of crystal structures of P2X receptors, the mechanism of competitive antagonist action for P2X receptors remains controversial. Here, we determine the crystal structure of the chicken P2X7 receptor in complex with the competitive P2X antagonist, TNP-ATP. The structure reveals an expanded, incompletely activated conformation of the channel, and identified the unique recognition manner of TNP-ATP, which is distinct from that observed in the previously determined human P2X3 receptor structure. A structure-based computational analysis furnishes mechanistic insights into the TNP-ATP-dependent inhibition. Our work provides structural insights into the functional mechanism of the P2X competitive antagonist.
Recent progress in cell biology has provided new insight into the claudin (CL) family of integral membrane proteins, which contains more than 20 members, as a target for pharmaceutical therapy. Few ligands for CL have been identified because it is difficult to prepare CL in an intact form. In the present study, we developed a method to screen for CL binders by using the budded baculovirus (BV) display system. CL4-displaying BV interacted with a CL4 binder, the C-terminal fragment of Clostridium perfringens enterotoxin (C-CPE), but it did not interact with C-CPE that was mutated in its CL4-binding region. C-CPE did not interact with BV and CL1-displaying BV. We used CL4-displaying BV to select CL4-binding phage in a mixture of a scFv-phage and C-CPE-phage. The percentage of C-CPE-phage in the phage mixture increased from 16.7% before selection to 92% after selection, indicating that CL-displaying BV may be useful for the selection of CL binders. We prepared a C-CPE phage library by mutating the functional amino acids. We screened the library for CL4 binders by affinity to CL4-displaying BV, and we found that the novel CL4 binders modulated the tight-junction barrier. These findings indicate that the CL-displaying BV system may be a promising method to produce a novel CL binder and modulator.
Two
chemical series of novel protein kinase C ζ (PKCζ)
inhibitors, 4,6-disubstituted and 5,7-disubstituted isoquinolines,
were rapidly identified using our fragment merging strategy. This
methodology involves biochemical screening of a high concentration
of a monosubstituted isoquinoline fragment library, then merging hit
isoquinoline fragments into a single compound. Our strategy can be
applied to the discovery of other challenging kinase inhibitors without
protein–ligand structural information. Furthermore, our optimization
effort identified the highly potent and orally available 5,7-isoquinoline 37 from the second chemical series. Compound 37 showed good efficacy in a mouse collagen-induced arthritis model.
The in vivo studies suggest that PKCζ inhibition is a novel
target for rheumatoid arthritis (RA) and that 5,7-disubstituted isoquinoline 37 has the potential to elucidate the biological consequences
of PKCζ inhibition, specifically in terms of therapeutic intervention
for RA.
Unprecedented NES Non-antagonistic Inhibitor for Nuclear Export of Rev from Sida cordifolia. -Hydroxyoctadecadienonic acid (I) is isolated from the methanolic extract of the title plant. Its mechanism of action is established by a competitive experiment with a biotinylated probe derived from leptomycin B. The cooperation of several functionalities in the Rev-export inhibitory activity of (I) is clarified by structure-activity relationship studies of synthesized analogues. -(TAMURA, S.; KANEKO, M.; SHIOMI, A.; YANG, G.-M.; YAMAURA, T.; MURAKAMI*, N.; Bioorg. Med.
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