Sarah A. Piercy-Kotb scite author profile

Transglutaminase activity, arising potentially from transglutaminase 2 (TG2) and Factor XIIIA (FXIIIA), has been linked to osteoblast differentiation where it is required for type I collagen and fibronectin matrix deposition. In this study we have used an irreversible TG-inhibitor to ‘block –and-track’ enzyme(s) targeted during osteoblast differentiation. We show that the irreversible TG-inhibitor is highly potent in inhibiting osteoblast differentiation and mineralization and reduces secretion of both fibronectin and type I collagen and their release from the cell surface. Tracking of the dansyl probe by Western blotting and immunofluorescence microscopy demonstrated that the inhibitor targets plasma membrane-associated FXIIIA. TG2 appears not to contribute to crosslinking activity on the osteoblast surface. Inhibition of FXIIIA with NC9 resulted in defective secretory vesicle delivery to the plasma membrane which was attributable to a disorganized microtubule network and decreased microtubule association with the plasma membrane. NC9 inhibition of FXIIIA resulted in destabilization of microtubules as assessed by cellular Glu-tubulin levels. Furthermore, NC9 blocked modification of Glu-tubulin into 150 kDa high-molecular weight Glu-tubulin form which was specifically localized to the plasma membrane. FXIIIA enzyme and its crosslinking activity were colocalized with plasma membrane-associated tubulin, and thus, it appears that FXIIIA crosslinking activity is directed towards stabilizing the interaction of microtubules with the plasma membrane. Our work provides the first mechanistic cues as to how transglutaminase activity could affect protein secretion and matrix deposition in osteoblasts and suggests a novel function for plasma membrane FXIIIA in microtubule dynamics.

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Factor XIIIA transglutaminase expression and secretion by osteoblasts is regulated by extracellular matrix collagen and the MAP kinase signaling pathway

Piercy-Kotb

Mousa

Al-Jallad

et al. 2012

Journal Cellular Physiology

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Osteoblast differentiation is regulated by the presence of collagen type I (COL I) extracellular matrix (ECM). We have recently demonstrated that Factor XIIIA (FXIIIA) transglutaminase (TG) is required by osteoblasts for COL I secretion and extracellular deposition, and thus also for osteoblast differentiation. In this study we have further investigated the link between COL I and FXIIIA, and demonstrate that COL I matrix increases FXIIIA levels in osteoblast cultures and that FXIIIA is found as cellular (cFXIIIA) and extacellular matrix (ecmFXIIIA) forms. FXIIIA mRNA, protein expression, cellular localization and secretion were enhanced by ascorbic acid (AA) treatment and blocked by dihydroxyproline (DHP) which inhibits COL I externalization. FXIIIA mRNA was regulated by the MAP kinase pathway. Secretion of ecmFXIIIA, and its enzymatic activity in conditioned medium, were also decreased in osteoblasts treated with the lysyl oxidase inhibitor β-aminopropionitrile, which resulted in a loosely packed COL I matrix. Osteoblasts secrete a latent, inactive dimeric ecmFXIIIA form which is activated upon binding to the matrix. Monodansyl cadaverine labeling of TG substrates in the cultures revealed that incorporation of the label occurred at sites where fibronectin co-localized with COL I, indicating that ecmFXIIIA secretion could function to stabilize newly deposited matrix. Our results suggest that FXIIIA is an integral part of the COL I deposition machinery, and also that it is part of the ECM-feedback loop, both of which regulate matrix deposition and osteoblast differentiation.

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Sarah A. Piercy-Kotb

Plasma Membrane Factor XIIIA Transglutaminase Activity Regulates Osteoblast Matrix Secretion and Deposition by Affecting Microtubule Dynamics

Factor XIIIA transglutaminase expression and secretion by osteoblasts is regulated by extracellular matrix collagen and the MAP kinase signaling pathway

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