Jackie D. Nace scite author profile

Jackie D. Nace

3Publications

81Citation Statements Received

49Citation Statements Given

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The Ohio State University, Laboratory of Molecular Genetics

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Expression and biological effect of urodele fibroblast growth factor 1: Relationship to limb regeneration

et al. 2002

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Fibroblast growth factors (FGFs) have been previously implicated in urodele limb regeneration. Here, we examined expression of FGF-1 by blastema cells and neurons and investigated its involvement in wound epithelial formation and function and in the trophic effect of nerves. Neurons innervating the limb and blastema cells in vivo and in vitro expressed the FGF-1 gene. The peptide was present in blastemas in vivo. Wound epithelium thickened when recombinant newt FGF-1 was provided on heparin-coated beads, demonstrating that the FGF-1 was biologically active and that the wound epithelium is a possible target tissue of FGF. FGF-1 did not stimulate accessory limb formation. FGF-1 was as effective as 10% fetal bovine serum in maintaining proliferative activity of blastema cells in vitro but was unable to maintain growth of denervated, nerve-dependent stage blastemas when provided on beads or by injection. FGF-1 had a strong stimulating effect on blastema cell accumulation and proliferation of limbs inserted into the body cavity that were devoid of an apical epithelial cap (AEC). These results show that FGF-1 can signal wound epithelium cap formation and/or function and can stimulate mesenchyme accumulation/proliferation in the absence of the AEC but that FGF-1 is not directly involved in the neural effect on blastema growth.

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Examination of fibronectin distribution and its sources in the regenerating newt limb by immunocytochemistry and in situ hybridization

Nace

Tassava

1995

Developmental Dynamics

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Using monoclonal antibodies (mAbs) reactive to newt limb regenerates, we hope to gain insight into the identity and function of regeneration significant molecules. mAb MT4 (matrix 4) identifies an extracellular matrix (ECM) protein that is strongly up-regulated first in the distal stump and then in the blastema during regeneration. Within the first 24 hr after amputation the MT4 antigen is localized to an acellular space beneath the wound epithelium, and first appears in the basal cells of the wound epithelium between days 5 and 7. At mid-bud blastema stages, the MT4 antigen is homogeneously distributed as thin fibers in the blastema ECM, and is later largely restricted to the distal tip of the blastema and the areas of cartilage condensation. After extraction and immunoblotting, the MT4 antigen was observed as three reduced species of M, 225, 250, and 260. Taken together, the immunoblot and immunocytochemistry results suggested that mAb MT4 recognized newt fibronectin (FN). Sequence from a cDNA (NvFN.lO) obtained by screening a newt blastema cDNA expression library with mAb MT4 conclusively identified the MT4 antigen as FN. To further investigate the expression of FN in regeneration, cDNA NvFN.10 was used to construct a riboprobe and in situ hybridization was done. In the unamputated limb only a few scattered cells expressed the FN gene. Within the first 3 days after amputation strong hybridization signal was observed in the basal cells of the wound epithelium. Most of the stump cells that dedifferentiated and accumulated beneath the wound epithelium at 7 days expressed the FN gene, while the basal cells of the wound epithelium maintained their expression. At mid-and late-bud blastema stages the vast majority of the blastema cells were strongly expressing the FN gene, but the wound epithelial cells now showed only weak FN transcription. Thus initially FN comes from the plasma. Then F N is synthesized by both the wound epithelium and mesenchyme.

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Extracellular matrix protein turnover during salamander limb regeneration

Tassava

Nace

Wei

1996

Wound Repair Regeneration

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After amputation of a salamander limb, the extracellular matrix undergoes remodeling. The extracellular matrix that maintains the differentiated state of limb tissues is broken down and replaced by an extracellular matrix essential for dedifferentiation and blastema formation. We used monoclonal antibodies in immunohistochemistry methods and riboprobes in in situ hybridization to evaluate the upregulation of tenascin, type XII collagen, fibronectin, and the MT5 antigen. The Stump 1 antigen, an extracellular matrix protein that is abundant in the normal limb, is downregulated during regeneration and reappears late in regeneration as differentiation occurs. In the embryo, the Stump 1 antigen is also absent from the early limb bud and first appears during differentiation stages. Tenascin and fibronectin are also upregulated in the limb bud of the embryo, and these two extracellular matrix proteins appear to function during limb regeneration in adults and limb development in embryos. However, type XII collagen and the MT5 antigen are not found in the limb bud, indicating that type XII collagen and the MT5 antigen have roles in the regenerating limb but not in the embryo limb bud.

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Jackie D. Nace

Expression and biological effect of urodele fibroblast growth factor 1: Relationship to limb regeneration

Examination of fibronectin distribution and its sources in the regenerating newt limb by immunocytochemistry and in situ hybridization

Extracellular matrix protein turnover during salamander limb regeneration

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