Adeeb A. Girjes scite author profile

This study utilized both in vivo and in vitro techniques to investigate whether cells of bone marrow origin can differentiate into smooth muscle-like cells (myofibroblasts) with contractile filaments and proteins. Female C57BL/6 mice expressing the Ly5.2 antigen on the surface of their haemopoietic cells had four pieces of silastic tubing (3 × 0.5 mm outer diameter) or boiled blood clot (2–3 mm diameter) placed in their peritoneal cavity. After 3, 5, 7 and 14 days (n = 4/group) the implants were removed and those that had remained free-floating were processed for light microscopy, immunohistochemistry and electron microscopy. In the first 3–5 days, rounded cells adhered to the entire surface of the tubing then flattened. These cells stained with fluoresceinated antibodies to Ly5.2 showing that they were derived from haemopoietic cells. By 14 days the cells had become elongated and multilayered in a collagen matrix, forming a thick tissue capsule around the tubing or boiled clot. They contained contractile filaments and stained with antibodies to α-smooth muscle actin but no longer stained for Ly5.2. A separate set of female C57BL/6 Ly5.2 mice were X-irradiated to destroy bone marrow then immediately transfused with 10⁶ nucleated bone marrow cells taken from the femur and tibia of a congenic strain of male mice expressing the Ly5.1 allele. Eight of the female mice with successful engraftment (80–99%) had silastic tubing implanted in the peritoneal cavity. After 14 days, in situ hybridization with Y chromosome probe confirmed the male donor, and thus bone marrow, origin of the elongated cells that formed the capsule. In vitro studies showed that cells of the murine macrophage cell lines RAW 264.7 and J774 express α-smooth muscle actin after exposure to the cytokine γ-interferon in vitro. These data show that bone marrow-derived cells can differentiate into smooth muscle-like cells and raises the possibility that blood-derived cells may contribute to the development of fibro-proliferative vascular diseases such as atherosclerosis.

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Aspects of the Epidemiology of Chlamydia Psittaci Infection in a Population of Koalas (Phascolarctos Cinereus) in Southeastern Queensland, Australia

Weigler

Girjes

White

et al. 1988

Journal of Wildlife Diseases

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Cell Surface Proteoglycan Expression by Human Periodontal Cells

Worapamorn

Haas

et al. 2000

Connective Tissue Research

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Cell surface proteoglycans are known to be involved in many functions including interactions with components of the extracellular microenvironment and serve to influence cell shape, adhesion, proliferation, and differentiation. They also can act as co-receptors, to help bind and modify the action of various growth factors and cytokines. Despite their strategic location and relevance to cell function, few studies have considered the nature of the cell surface proteoglycans associated with cells of the periodontium. Due to the structural complexity and multiplicity of cell types in the periodontium, we have selected three different cell lines (gingival connective tissue fibroblast, periodontal ligament fibroblast, and osteoblast) which each represent the unique functions within the periodontium to study the expression of cell surface proteoglycans. We hypothesized that a number of cell surface proteoglycans will be expressed by human periodontal cells and these may be related to the source and function of the cell. Western blotting and RT-PCR methods were used to study the expression of five cell surface proteoglycans (syndecan-1, -2, -4, glypican and betaglycan) in three cell lines of human periodontal cells in vitro. Our results demonstrated the expression of protein cores for syndecan-1 (43 kDa), syndecan-2 (48 kDa), syndecan-4 (35 kDa), glypican (64 kDa), and betaglycan (100-110 kDa). RT-PCR results confirmed that all of these cells produced mRNA for the cell surface proteoglycans under study, of which syndecan-2 showed a significant difference in expression between the periodontal ligament fibroblasts, gingival fibroblasts and osteoblasts. We conclude that the presence of specific cell surface proteoglycans on periodontal cells implies a likely role for these molecules in cell-cell, cell-matrix interactions involved in periodontal disease and/or regeneration of the periodontium, of which they may have distinctive functions related to the source and function of these cells.

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Cloning and characterization of cDNA encoding a human arginyl-tRNA synthetase

Girjes

Hobson

Chen

et al. 1995

Gene

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Adeeb A. Girjes

Chlamydial disease in koalas

Haemopoietic Origin of Myofibroblasts Formed in the Peritoneal Cavity in Response to a Foreign Body

Aspects of the Epidemiology of Chlamydia Psittaci Infection in a Population of Koalas (Phascolarctos Cinereus) in Southeastern Queensland, Australia

Cell Surface Proteoglycan Expression by Human Periodontal Cells

Cloning and characterization of cDNA encoding a human arginyl-tRNA synthetase

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