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Full-Text Articles in Medicine and Health Sciences
Lipid Phosphate Phosphatase 3 Enables Efficient Thymic Egress, Béatrice Bréart, Willy D. Ramos-Perez, Alejandra Mendoza, Abdelghaffar K. Salous, Michael Gobert, Yong Huang, Ralf H. Adams, Juan J. Lafaille, Diana Escalante-Alcalde, Andrew J. Morris, Susan R. Schwab
Lipid Phosphate Phosphatase 3 Enables Efficient Thymic Egress, Béatrice Bréart, Willy D. Ramos-Perez, Alejandra Mendoza, Abdelghaffar K. Salous, Michael Gobert, Yong Huang, Ralf H. Adams, Juan J. Lafaille, Diana Escalante-Alcalde, Andrew J. Morris, Susan R. Schwab
Gill Heart & Vascular Institute Faculty Publications
The signaling lipid sphingosine-1-phosphate (S1P) stabilizes the vasculature, directs lymphocyte egress from lymphoid organs, and shapes inflammatory responses. However, little is known about how S1P distribution is controlled in vivo, and it is not clear how a ubiquitously made lipid functions as a signal that requires precise spatial and temporal control. We have found that lipid phosphate phosphatase 3 (LPP3) enables efficient export of mature T cells from the thymus into circulation, and several lines of evidence suggest that LPP3 promotes exit by destroying thymic S1P. Although five additional S1P-degrading enzymes are expressed in the thymus, they cannot compensate for …
Novel Model For Multispecies Biofilms That Uses Rigid Gas-Permeable Lenses, Rebecca Peyyala, Sreenatha S. Kirakodu, Jeffrey L. Ebersole, Karen F. Novak
Novel Model For Multispecies Biofilms That Uses Rigid Gas-Permeable Lenses, Rebecca Peyyala, Sreenatha S. Kirakodu, Jeffrey L. Ebersole, Karen F. Novak
Center for Oral Health Research Faculty Publications
Oral biofilms comprise complex multispecies consortia aided by specific inter- and intraspecies interactions occurring among commensals and pathogenic bacterial species. Oral biofilms are primary initiating factors of periodontal disease, although complex multifactorial biological influences, including host cell responses, contribute to the individual outcome of the disease. To provide a system to study initial stages of interaction between oral biofilms and the host cells that contribute to the disease process, we developed a novel in vitro model system to grow biofilms on rigid gas-permeable contact lenses (RGPLs), which enable oxygen to permeate through the lens material. Bacterial species belonging to early- …