Charles E. Patterson scite author profile

FKBP65 (65-kDa FK506-binding protein) is an endoplasmic reticulum (ER)-localized peptidyl-prolyl cis-trans isomerase predicted to play a role in the folding and trafficking of secretory proteins. In previous studies, we have shown that FKBP65 is developmentally regulated and associates with the extracellular matrix protein, tropoelastin, during its maturation and transport through the ER. In this study, we show that FKBP65 is expressed in the lung with the same developmental pattern as tropoelastin and other matrix proteins. To test the hypothesis that FKBP65 is upregulated at times when extracellular matrix proteins are being actively synthesized and assembled, adult mice were treated with bleomycin to cause reinitiation of matrix protein production during the ensuing development of pulmonary fibrosis. After bleomycin instillation, FKBP65 expression was reactivated in the lung with a pattern similar to that observed for tropoelastin and type I collagen. Using human lung fibroblast cultures, we showed that FKBP65 does not undergo the unfolded protein response, a response associated with an upregulation of resident ER proteins that occurs after increased ER stress. When fibroblasts were treated with transforming growth factor (TGF)-␤1, which is upregulated during the development of pulmonary fibrosis and known to induce matrix production, FKBP65 expression and synthesis was also increased. Similar to type I collagen and tropoelastin, this response was completely inhibited in a dose-dependent manner by GGTI-298, a geranylgeranyl transferase I inhibitor. Treatment of fibroblasts with an inhibitor of ribonucleic acid (RNA) polymerase II after TGF-␤1 treatment showed that the effect of TGF-␤1 was not because of increased stabilization of the FKBP65 messenger RNA. In summary, we have shown that FKBP65 is highly expressed in lung development, downregulated in the adult, and can be reactivated in a coordinated manner with extracellular matrix proteins after lung injury. The expression pattern of FKBP65, which is atypical for general ER foldases, suggests that FKBP65 has a distinct set of developmentally regulated protein ligands. The response to injury, which may be in part a direct response to TGF-␤1, assures the presence of FKBP65 in the ER of cells actively producing components of the extracellular matrix.

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Genomic Organization of Mouse and Human 65 kDa FK506-Binding Protein Genes and Evolution of the FKBP Multigene Family

Patterson

Gao

Rooney

et al. 2002

Genomics

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Evidence for Early Signaling Events in Stomatin‐Induced Differentiation of Tetrahymena vorax

Ryals

Bae

Patterson

1999

J Eukaryotic Microbiology

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The mechanism of stomatin-induced differentiation of Tetrahymena vorax was investigated by in vivo protease degradation of cell surface proteins, the direct measurement of products formed from the activation of phospholipase C, and the use of an array of signal transduction inhibitors/activators. The data indicate that a surface-exposed protein is required for stomatin to signal the cells to differentiate and that the cells are committed to the differentiation pathway within two hours after exposure to stomatin. Analysis of radiolabeled polyphosphoinositols and inositol lipids from control and stomatin-treated populations in the presence of 10 mM LiCl were consistent with a rapid activation of phospholipase C. Within five min following addition of stomatin, this resulted in an increase in polyphosphoinositols and a concomitant decrease in the relative amounts of phosphatidylinositol bisphosphate and phosphatidylinositol trisphosphate.

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Developmental Regulation of FKBP65

Patterson

Schaub

Coleman

et al. 2000

MBoC

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Monitoring Editor: Suzanne R. Pfeffer FKBP65 (65-kDa FK506-binding protein) is a member of the highly conserved family of intracellular receptors called immunophilins. All have the property of peptidyl-prolyl cis-trans isomerization, and most have been implicated in folding and trafficking events. In an earlier study, we identified that FKBP65 associates with the extracellular matrix protein tropoelastin during its transport through the cell. In the present study, we have carried out a detailed investigation of the subcellular localization of FKBP65 and its relationship to tropoelastin. Using subcellular fractionation, Triton X-114 phase separation, protease protection assays, and immunofluorescence microscopy (IF), we have identified that FKBP65 is contained within the lumen of the endoplasmic reticulum (ER). Subsequent IF studies colocalized FKBP65 with tropoelastin and showed that the two proteins dissociate before reaching the Golgi apparatus. Immunohistochemical localization of FKBP65 in developing lung showed strong staining of vascular and airway smooth muscle cells. Similar areas stained positive for the presence of elastic fibers in the extracellular matrix. The expression of FKBP65 was investigated during development as tropoelastin is not expressed in adult tissues. Tissue-specific expression of FKBP65 was observed in 12-d old mouse tissues; however, the pattern of expression of FKBP65 was not restricted to those tissues expressing tropoelastin. This suggests that additional ligands for FKBP65 likely exist within the ER. Remarkably, in the adult tissues examined, FKBP65 expression was absent or barely detectable. Taken together, these results support an ER-localized FKBP65-tropoelastin interaction that occurs specifically during growth and development of tissues.

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Derivation of Extracellular Polysaccharide-Deficient Variants from a Serotype A Strain of Pasteurella multocida

et al. 1999

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The production of serotype A extracellular polysaccharide is thought to be associated with expression of an approximately 40-kDa lipoprotein (P1p-40) present on the outer surface of Pasteurella multocida strains of avian origin. The tendency of certain strains to undergo colonial dissociation concomitantly with serial passaging on laboratory growth media was exploited to derive two variant strains exhibiting the capsule-deficient phenotype from a heavily capsulated parental strain. Assessments of colonial consistency, iridescence, gentian violet binding, and hyaluronidase sensitivity were consistent with cellular observations indicating little or no capsulation of derivative strains. Fluorographic analysis of electrophoretically resolved cellular lipoproteins labeled with [3H]-palmitate revealed capsular loss occurred with a concomitant diminution of P1p-40 production in the variant strains. In contrast, a phenotypically stable strain that did not undergo colonial dissociation under identical conditions exhibited no decrease in P1p-40 content. This work provides a model system for investigating the role of extracellular polysaccharide in the cell surface physiology and pathogenicity of P. multocida. The present results strongly support the notion that P1p-40 is associated with serotype A capsular material and suggest coordinate regulation of their biosynthesis.

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