Mesenchymal VEGFA induces aberrant differentiation in heterotopic ossification

Heterotopic ossification(HO)is a debilitating condition characterized by the pathologic formation of ectopic bone.HO occurs commonly following orthopedic surgeries,burns,and neurologic injuries.While surgical excision may provide palliation,the procedure is often burdened with significant intra-operative blood loss due to a more robust contribution of blood supply to the pathologic bone than to native bone.Based on these clinical observations,we set out to examine the role of vascular signaling in HO.Vascular endothelial growth factor A(VEGFA)has previously been shown to be a crucial pro-angiogenic and pro-osteogenic cue during normal bone development and homeostasis.Our findings,using a validated mouse model of HO,demonstrate that HO lesions are highly vascular,and that VEGFA is critical to ectopic bone formation,despite lacking a contribution of endothelial cells within the developing anlagen.

Exposure to cuticular bacteria can alter host behavior in a funnel-weaving spider

Contact with environmental microbes are arguably the most common species interaction in which any animal participates.Studies have noted diverse relationships between hosts and resident microbes,which can have strong consequences for host development,physiology,and behavior. Many of these studies focus specifically on pathogens or beneficial microbes,while the benign microbes,of which the majority of bacteria could be described,are often ignored.Here,we explore the nature of the relationships between the grass spider Agelenopsis pennsylvanica and bacteria collected from their cuticles in situ.First,using culture-based methods,we identified a portion of the cuticular bacterial communities that are naturally associated with these spiders.Then,we topically exposed spiders to a subset of these bacterial monocultures to estimate how bacterial exposure may alter 3 host behavioral traits:boldness,aggressiveness,and activity level.We conducted these behavioral assays 3 times before and 3 times after topical application,and compared the changes observed in each trait with spiders that were exposed to a sterile control treatment.We identified 9 species of bacteria from the cuticles of 36 spiders and exposed groups of 20 spiders to 1 of 4 species of cuticular bacteria.We found that exposure to Dermacoccus nishinomiyaensis and Staphylococcus saprophyticus was associated with a lO-fold decrease in the foraging aggressiveness of spiders toward prey in their web.Since bacterial exposure did not have survival consequences for hosts,these data suggest that interactions with cuticular bacteria,even non- pathogenic bacteria,could alter host behavior.