Eric P. Ingersoll scite author profile

Eric P. Ingersoll

5Publications

97Citation Statements Received

11Citation Statements Given

How they've been cited

135

How they cite others

151

Affiliations

Abington Memorial Hospital, Pennsylvania State University, University of California, Berkeley

Publications

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Matrix Metalloproteinase Inhibitors Disrupt Spicule Formation by Primary Mesenchyme Cells in the Sea Urchin Embryo

Ingersoll

Wilt

1998

Developmental Biology

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The primary mesenchyme cells of the sea urchin embryo construct an elaborate calcareous endoskeletal spicule beginning at gastrulation. This process begins by ingression of prospective primary mesenchyme cells into the blastocoel, after which they migrate and then fuse to form a syncytium. Skeleton deposition occurs in spaces enclosed by the cytoplasmic cables between the cell bodies. Experiments are described which probe the role of proteases in these early events of spicule formation and their role in the continued elaboration of the spicule during later stages of embryogenesis. We find that several inhibitors of metalloproteinases inhibit the continuation of spiculogenesis, an effect first reported by Roe et al. (Exp. Cell Res. 181, 542-550, 1989). A detailed study of one of these inhibitors, BB-94, shows that fusion of primary mesenchyme cells still occurs in the presence of the inhibitor and the formation of the first calcite granule is not impeded. Continued elaboration of the spicule, however, is completely stopped; addition of the inhibitor during the active elongation of the spicule stops further elongation immediately. Removal of the inhibitor allows resumption of spicule growth. The inhibition is accompanied by almost complete cessation of massive Ca ion transport via the primary mesenchyme cells to the spicule. The inhibitor does not prevent the continued synthesis of several spicule matrix proteins. Electron microscopic examination of inhibited primary mesenchyme cells shows an accumulation of characteristic vesicles in the cytoplasm. Gel zymography demonstrates that although most proteases in homogenates of primary mesenchyme cells are not sensitive to the inhibitor in vitro, a protease of low abundance detectable in the medium of cultured primary mesenchyme cells is inhibited by BB-94. We propose that the inhibitor is interfering with the delivery of precipitated calcium carbonate and matrix proteins to the site(s) of spicule growth.

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Ultrastructural localization of spicule matrix proteins in normal and metalloproteinase inhibitor‐treated sea urchin primary mesenchyme cells

2003

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Studies of the sea urchin larval skeleton have contributed greatly to our understanding of the process of biomineralization. In this study we have undertaken an investigation of the morphology of skeleton formation and the localization of proteins involved in the process of spicule formation at the electron microscope level. Sea urchin primary mesenchyme cells undergo a number of morphological changes as they synthesize the larval skeleton. They form a large spicule compartment that surrounds the growing spicule and, as spicule formation comes to an end, the density of the cytoplasm decreases. Inhibition of spicule formation by specific matrix metalloproteinase inhibitors or serum deprivation has some subtle effects on the morphology of cells and causes the accumulation of specific classes of vesicles. We have localized proteins of the organic matrix of the spicule and found that one protein, SM30, is localized to the Golgi apparatus and transport vesicles in the cytoplasm as well as throughout the occluded protein matrix of the spicule itself. This localization suggests that SM30 is an important structural protein in the spicule. Another spicule matrix protein, SM50, has a similar cytoplasmic localization, but in the spicule much of it is localized at the periphery of the spicule compartment, and consequently it may play a role in the assembly of new material onto the growing spicule or in the maintenance of the integrity of the matrix surrounding the spicule.

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An N-Linked Carbohydrate-Containing Extracellular Matrix Determinant Plays a Key Role in Sea Urchin Gastrulation

Ingersoll

Ettensohn

1994

Developmental Biology

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Developmental characterization of the gene for laminin α-chain in sea urchin embryos

Benson

Page

Ingersoll

et al. 1999

Mechanisms of Development

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We describe the isolation and characterization of a cDNA clone encoding a region of the carboxy terminal globular domain (G domain) of the alpha-1 chain of laminin from the sea urchin, Strongylocentrotus purpuratus. Sequence analysis indicates that the 1.3 kb cDNA (spLAM-alpha) encodes the complete G2 and G3 subdomains of sea urchin a-laminin. The 11 kb spLAM-alpha mRNA is present in the egg and declines slightly in abundance during development to the pluteus larva. The spLAM-alpha gene is also expressed in a variety of adult tissues. Whole mount in situ hybridization of gastrula stage embryos indicates that ectodermal and endodermal epithelia and mesenchyme cells contain the spLAM-alpha mRNA. Immunoprecipitation experiments using an antibody made to a recombinant fusion protein indicates spLAM-alpha protein is synthesized continuously from fertilization as a 420 kDa protein which accumulates from low levels in the egg to elevated levels in the pluteus larva. Light and electron microscopy identify spLAM-alpha as a component of the basal lamina. Blastocoelic microinjection of an antibody to recombinant spLAM-alpha perturbs gastrulation and skeleton formation by primary mesenchyme cells suggesting an important role for laminin in endodermal and mesodermal morphogenesis.

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Characterization and expression of two matrix metalloproteinase genes during sea urchin development

Ingersoll

Pendharkar

2005

Gene Expression Patterns

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Eric P. Ingersoll

Matrix Metalloproteinase Inhibitors Disrupt Spicule Formation by Primary Mesenchyme Cells in the Sea Urchin Embryo

Ultrastructural localization of spicule matrix proteins in normal and metalloproteinase inhibitor‐treated sea urchin primary mesenchyme cells

An N-Linked Carbohydrate-Containing Extracellular Matrix Determinant Plays a Key Role in Sea Urchin Gastrulation

Developmental characterization of the gene for laminin α-chain in sea urchin embryos

Characterization and expression of two matrix metalloproteinase genes during sea urchin development

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