Loss of the auxiliary αδ voltage-sensitive calcium channel subunit impairs bone formation and anabolic responses to mechanical loading.

Voltage-sensitive calcium channels (VSCCs) influence bone structure and function, including anabolic responses to mechanical loading. While the pore-forming (α) subunit of VSCCs allows Ca influx, auxiliary subunits regulate the biophysical properties of the pore. The αδ subunit influences gating kinetics of the α pore and enables mechanically induced signaling in osteocytes; however, the skeletal function of αδ in vivo remains unknown.

The Interplay Between Splicing of Two Exon Combinations Differentially Affects Membrane Targeting and Function of Human Ca2.2.

N-type calcium channels (Ca2.2) are predominantly localized in presynaptic terminals, and are particularly important for pain transmission in the spinal cord. Furthermore, they have multiple isoforms, conferred by alternatively spliced or cassette exons, which are differentially expressed.

Virtual Reality for IMMunisation (VRIMM) pain in young children: Results of a randomised controlled trial in general practice.

Background And Objectives: Virtual reality (VR) may be useful for reducing needle-based pain and distress. Our objective was to compare VR against standard care for children undergoing routine four-year-old immunisations.

Method: This was a randomised controlled superiority trial conducted in a single suburban general practice, comparing a VR sequence of an interactive marine adventure to standard care (parental comfort, distraction of child).

Ancient Clostridium DNA and variants of tetanus neurotoxins associated with human archaeological remains.

The analysis of microbial genomes from human archaeological samples offers a historic snapshot of ancient pathogens and provides insights into the origins of modern infectious diseases. Here, we analyze metagenomic datasets from 38 human archaeological samples and identify bacterial genomic sequences related to modern-day Clostridium tetani, which produces the tetanus neurotoxin (TeNT) and causes the disease tetanus. These genomic assemblies had varying levels of completeness, and a subset of them displayed hallmarks of ancient DNA damage.

T-type Ca and persistent Na currents synergistically elevate ventral, not dorsal, entorhinal cortical stellate cell excitability.

Dorsal and ventral medial entorhinal cortex (mEC) regions have distinct neural network firing patterns to differentially support functions such as spatial memory. Accordingly, mEC layer II dorsal stellate neurons are less excitable than ventral neurons. This is partly because the densities of inhibitory conductances are higher in dorsal than ventral neurons.