Mechanisms of lipid homeostasis in the Coxiella Containing Vacuole.

Coxiella burnetii, the causative agent of human Q fever, is an obligate intracellular bacterial pathogen that replicates in a large, membrane-bound vacuole known as the Coxiella Containing Vacuole (CCV). The CCV is a unique, phagolysosome-derived vacuole with a sterol-rich membrane containing host and bacterial proteins. The CCV membrane itself serves as a barrier to protect the bacteria from the host's innate immune response, and the lipid and protein content directly influence both the CCV luminal environment and interactions between the CCV and host trafficking pathways.

Disruption of the creb3l1 gene causes defects in caudal fin regeneration and patterning in zebrafish Danio rerio.

Background: The gene cAMP-Responsive Element Binding protein 3-like-1 (CREB3L1) has been implicated in bone development in mice, with CREB3L1 knock-out mice exhibiting fragile bones, and in humans, with CREB3L1 mutations linked to osteogenesis imperfecta. However, the mechanism through which Creb3l1 regulates bone development is not fully understood.

Results: To probe the role of Creb3l1 in organismal physiology, we used CRISPR-Cas9 genome editing to generate a Danio rerio (zebrafish) model of Creb3l1 deficiency.

Lack of Nuclear Localization of the Creb3l1 Transcription Factor Causes Defects in Caudal Fin Bifurcation in Zebrafish Danio rerio.

Introduction: The formation of normal bone and bone healing requires the cAMP-responsive element binding protein 3-like-1 (Creb3l1) transmembrane transcription factor, as deletion of the murine CREB3L1 results in osteopenic animals with limited capacity to repair bone after a fracture. Creb3l1 undergoes regulated intramembrane proteolysis (RIP) to release the N-terminal transcription activating (TA) fragment that enters the nucleus and regulates the expression of target genes.

Methods: To expand our understanding of Creb3l1's role in skeletal development and skeletal patterning, we aimed to generate animals expressing only the TA fragment of Creb3l1 lacking the transmembrane domain and thereby not regulated through RIP.

JAGN1, tetraspanins, and Erv proteins: is common topology indicative of common function in cargo sorting?

The endoplasmic reticulum protein Jagunal (JAGN1) was first identified as a requirement for oocyte development. Subsequent studies in human patients linked mutations in JAGN1 to severe congenital neutropenia, as well as a broad range of additional symptoms, suggesting that JAGN1 function is required in many tissues. Moreover, JAGN1 orthologs are found throughout animal and plant phylogeny, suggesting that JAGN1 supports fundamental cellular processes not restricted to egg development or neutrophil function.