TRPV1 alterations in urinary bladder dysfunction in a rat model of STZ-induced diabetes.

Aims: More than half of diabetic patients experience voiding disorder termed diabetic urinary bladder dysfunction (DBD). Here we have investigated how the alterations in transient receptor potential vanilloid 1 (TRPV1) ion channel expressed in bladder-innervating afferents may contribute to DBD pathogenesis.

Main Methods: The rat model of streptozotocin (STZ)-induced diabetes was used.

Assessment of gold nanoparticle effect on prostate cancer LNCaP cells.

Unlabelled: In recent years gold nanoparticles (AuNPs) have received considerable attention for various biomedical applications including diagnostics and targeted drug delivery. However, more research is still needed to characterize such aspects of their use in clinical oncology as permeability, retention and functional effect on tumor cells.

Aims: This study was designed to describe the effect of non-functionalized AuNPs on LNCaP prostate cancer cells growth.

Calmodulin colocalizes with connexins and plays a direct role in gap junction channel gating.

The direct calmodulin (CaM) role in chemical gating was tested with CaM mutants, expressed in oocytes, and CaM-connexin labeling methods. CaMCC, a CaM mutant with greater Ca-sensitivity obtained by replacing the N-terminal EF hand pair with a duplication of the C-terminal pair, drastically increased the chemical gating sensitivity of Cx32 channels and decreased their Vj sensitivity. This only occurred when CaMCC was expressed before Cx32, suggesting that CaMCC, and by extension CaM, interacts with Cx32 before junction formation.

Mechanisms of up-regulation of single calcium channels by serotonin in Helix pomatia neurons.

Action of serotonin (5-HT) on single Ca(2+) channel activity was studied in identified neurons of snail Helix pomatia. Only one type of Ca(2+) channels of 5 pS unitary conductance was determined under patch-clamp cell-attached mode. Kinetic analysis have shown a monotonically declining distribution of channel open times (OT) with mean time constant of 0.

Calmodulin directly gates gap junction channels.

Cytosolic changes control gap junction channel gating via poorly understood mechanisms. In the past two decades calmodulin participation in gating has been suggested, but compelling evidence for it has been lacking. Here we show that calmodulin indeed is associated with gap junctions and plays a direct role in chemical gating.