Histone modifications and chromatin dynamics: a focus on filamentous fungi

Secreted protein acidic and rich in cysteine͞osteonectin͞BM-40 (SPARC) is a matrix-associated protein that elicits changes in cell shape, inhibits cell-cycle progression, and influences the synthesis of extracellular matrix (ECM). The absence of SPARC in mice gives rise to aberrations in the structure and composition of the ECM that result in generation of cataracts, development of severe osteopenia, and accelerated closure of dermal wounds. In this report we show that SPARC-null mice have greater deposits of s.c. fat and larger epididymal fat pads in comparison with wild-type mice. Similar to earlier studies of SPARC-null dermis, we observed a reduction in collagen I in SPARC-null fat pads in comparison with wild-type. Although elevated levels of serum leptin were observed in SPARC-null mice, their overall body weights were not significantly different from those of wild-type counterparts. The diameters of adipocytes from SPARC-null versus wild-type epididymal fat pads were 252 ؎ 61 and 161 ؎ 33 m (means ؎ SD), respectively, and there was an increase in adipocyte number within SPARC-null fat pads in comparison with wild-type pads. Thus the absence of SPARC appears to result in an increase in the size of individual adipocytes as well as an increase in the number of adipocytes per fat pad. In fat pads isolated from wild-type mice, SPARC mRNA was associated with both the stromal͞vascular and adipocyte fractions. We propose that SPARC limits the accumulation of adipose tissue in mice in part through its demonstrated effects on the regulation of cell shape and production of ECM.

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Enhanced growth of tumors in SPARC null mice is associated with changes in the ECM

Brekken¹,

Puolakkainen²,

Graves³

et al. 2003

J. Clin. Invest.

114

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SPARC, a 32-kDa glycoprotein, participates in the regulation of morphogenesis and cellular differentiation through its modulation of cell-matrix interactions. Major functions defined for SPARC in vitro are de-adhesion and antiproliferation. In vivo, SPARC is restricted in its expression to remodeling tissues, including pathologies such as cancer. However, the function of endogenous SPARC in tumor growth and progression is not known. Here, we report that implanted tumors grew more rapidly in mice lacking SPARC. We observed that tumors grown in SPARC null mice showed alterations in the production and organization of ECM components and a decrease in the infiltration of macrophages. However, there was no change in the levels of angiogenic growth factors in comparison to tumors grown in wild-type mice, although there was a statistically significant difference in total vascular area. Whereas SPARC did inhibit the growth of tumor cells in vitro, it did not have a demonstrable effect on the proliferation or apoptosis of tumor cells in vivo. These data indicate that host-derived SPARC is important for the appropriate organization of the ECM in response to implanted tumors and highlight the importance of the ECM in regulating tumor growth

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Enhanced growth of tumors in SPARC null mice is associated with changes in the ECM

Brekken¹,

et al. 2003

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Vascular Smooth Muscle Cells Spontaneously Adopt a Skeletal Muscle Phenotype: A Unique Myf5^–/MyoD⁺ Myogenic Program

Graves

Yablonka–Reuveni

2000

J Histochem Cytochem.

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Smooth and skeletal muscle tissues are composed of distinct cell types that express related but distinct isoforms of the structural genes used for contraction. These two muscle cell types are also believed to have distinct embryological origins. Nevertheless, the phenomenon of a phenotypic switch from smooth to skeletal muscle has been demonstrated in several in vivo studies. This switch has been minimally analyzed at the cellular level, and the mechanism driving it is unknown. We used immunofluorescence and RT-PCR to demonstrate the expression of the skeletal muscle-specific regulatory genes MyoD and myogenin, and of several skeletal muscle-specific structural genes in cultures of the established rat smooth muscle cell lines PAC1, A10, and A7r5. The skeletal muscle regulatory gene Myf5 was not detected in these three cell lines. We further isolated clonal sublines from PAC1 cultures that homogeneously express smooth muscle characteristics at low density and undergo a coordinated increase in skeletal muscle-specific gene expression at high density. In some of these PAC1 sublines, this process culminates in the high-frequency formation of myotubes. As in the PAC1 parental line, Myf5 was not expressed in the PAC1 sublines. We show that the PAC1 sublines that undergo a more robust transition into the skeletal muscle phenotype also express significantly higher levels of the insulin-like growth factor (IGF1 and IGF2) genes and of FGF receptor 4 (FGFR4) gene. Our results suggest that MyoD expression in itself is not a sufficient condition to promote a coordinated program of skeletal myogenesis in the smooth muscle cells. Insulin administered at a high concentration to PAC1 cell populations with a poor capacity to undergo skeletal muscle differentiation enhances the number of cells displaying the skeletal muscle differentiated phenotype. The findings raise the possibility that the IGF signaling system is involved in the phenotypic switch from smooth to skeletal muscle. The gene expression program described here can now be used to investigate the mechanisms that may underlie the propensity of certain smooth muscle cells to adopt a skeletal muscle identity.(J Histochem Cytochem 48:1173-1193, 2000)

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Effects of Right- and Left-Hemisphere Damage on Understanding Conversational Implicatures

et al. 1999

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David C. Graves

SPARC-null mice exhibit increased adiposity without significant differences in overall body weight

Enhanced growth of tumors in SPARC null mice is associated with changes in the ECM

Enhanced growth of tumors in SPARC null mice is associated with changes in the ECM

Vascular Smooth Muscle Cells Spontaneously Adopt a Skeletal Muscle Phenotype: A Unique Myf5^–/MyoD⁺ Myogenic Program

Effects of Right- and Left-Hemisphere Damage on Understanding Conversational Implicatures

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David C. Graves

SPARC-null mice exhibit increased adiposity without significant differences in overall body weight

Enhanced growth of tumors in SPARC null mice is associated with changes in the ECM

Enhanced growth of tumors in SPARC null mice is associated with changes in the ECM

Vascular Smooth Muscle Cells Spontaneously Adopt a Skeletal Muscle Phenotype: A Unique Myf5–/MyoD+ Myogenic Program

Effects of Right- and Left-Hemisphere Damage on Understanding Conversational Implicatures

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Product

Resources

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Vascular Smooth Muscle Cells Spontaneously Adopt a Skeletal Muscle Phenotype: A Unique Myf5^–/MyoD⁺ Myogenic Program