Neural basis for pheromone signal transduction in mice.

Pheromones are specialized chemical messengers used for inter-individual communication within the same species, playing crucial roles in modulating behaviors and physiological states. The detection mechanisms of these signals at the peripheral organ and their transduction to the brain have been unclear. However, recent identification of pheromone molecules, their corresponding receptors, and advancements in neuroscientific technology have started to elucidate these processes.

A single vomeronasal receptor promotes intermale aggression through dedicated hypothalamic neurons.

The pheromonal information received by the vomeronasal system plays a crucial role in regulating social behaviors such as aggression in mice. Despite accumulating knowledge of the brain regions involved in aggression, the specific vomeronasal receptors and the exact neural circuits responsible for pheromone-mediated aggression remain unknown. Here, we identified one murine vomeronasal receptor, Vmn2r53, that is activated by urine from males of various strains and is responsible for evoking intermale aggression.

Hemoglobin in the blood acts as a chemosensory signal via the mouse vomeronasal system.

The vomeronasal system plays an essential role in sensing various environmental chemical cues. Here we show that mice exposed to blood and, consequently, hemoglobin results in the activation of vomeronasal sensory neurons expressing a specific vomeronasal G protein-coupled receptor, Vmn2r88, which is mediated by the interaction site, Gly17, on hemoglobin. The hemoglobin signal reaches the medial amygdala (MeA) in both male and female mice.

Posterior Root Avulsion Fracture of the Medial Meniscus in a Skeletally Immature Child: A Case Report.

Case: We describe a rare case of posterior root avulsion fracture of the medial meniscus in an 11-year-old boy. Previous reports have demonstrated delayed diagnosis, but in this case, multiplanar computed tomography (CT) combined with magnetic resonance imaging (MRI) enabled early diagnosis and treatment. Gradual ossification was observed after arthroscopic suture fixation, and meniscal extrusion did not progress.

A sexual rejection peptide: potential use for controlling mouse overpopulation.

Exocrine gland-secreting peptide 22 (ESP22) is a 10-kDa protein secreted in tears of juvenile mice. ESP22 inhibits sexual behaviors in adults, leading to a reduction in reproduction rate. We herein identified the 24 amino acid sequence within ESP22 that was essential for exhibiting sexual rejection activity.