2011
The Fiber Diameter of Synthetic Bioresorbable Extracellular Matrix Influences Human Fibroblast Morphology and Fibronectin Matrix Assembly
Hsia HC, Nair MR, Mintz RC, Corbett SA. The Fiber Diameter of Synthetic Bioresorbable Extracellular Matrix Influences Human Fibroblast Morphology and Fibronectin Matrix Assembly. Plastic & Reconstructive Surgery 2011, 127: 2312-2320. PMID: 21617465, PMCID: PMC3103705, DOI: 10.1097/prs.0b013e3182139fa4.Peer-Reviewed Original ResearchConceptsFibronectin matrix assemblyMatrix assemblyActin cytoskeletal morphologyFocal adhesion complexesFocal adhesion sizeActin stress fibersCell proliferationAdhesion complexesAdhesion sizeEnvironmental cuesStress fibersCellular responsesAbility of scaffoldsCytoskeletal morphologyScaffold fiber diameterHuman dermal fibroblastsFibril formationCell functionImmunofluorescent microscopyBiological responsesMicrofiber scaffoldsFibroblast morphologyDermal fibroblastsHigher cell proliferationCells
2006
Adenoviral-Mediated Expression and Local Deposition of Recombinant Tenascin-C Perturbs Cell-Dependent Matrix Contraction
Hsia HC, Schwarzbauer JE. Adenoviral-Mediated Expression and Local Deposition of Recombinant Tenascin-C Perturbs Cell-Dependent Matrix Contraction. Journal Of Surgical Research 2006, 136: 92-97. PMID: 16926030, DOI: 10.1016/j.jss.2006.05.030.Peer-Reviewed Original ResearchConceptsMammalian cellsLysophosphatidic acidRho GTPaseMatrix proteinsCell contractilityCell-matrix contactsCultured mammalian cellsRho GTPase pathwayLarge extracellular matrix glycoproteinProvisional matrixRecombinant adenovirus infectionMatrix contractionAdenoviral mediated expressionExtracellular matrix glycoproteinGTPase pathwayLarge proteinsEndogenous expressionThree-dimensional fibrinMatrix glycoproteinProteinGTPaseRecombinant adenovirus vectorControl cellsTenascin-C expressionRecombinant form
2005
Meet the Tenascins: Multifunctional and Mysterious*
Hsia HC, Schwarzbauer JE. Meet the Tenascins: Multifunctional and Mysterious*. Journal Of Biological Chemistry 2005, 280: 26641-26644. PMID: 15932878, DOI: 10.1074/jbc.r500005200.Peer-Reviewed Original Research