Michael J. Dufresne scite author profile

Introduced species are common members of estuarine communities where their role as competitors and predators is of concern, This paper examines the invasion of Gulf of Maine benthic habitats by the ecologically similar alien invertebrates Styela clava, Botrylloides diegensis, and Membranipora membranacea. Styela clava increased slowly in abundance at study sites in Beverly, Massachusetts and Portsmouth, New Hampshire. We found no evidence of competitive dominance by S. clava, even though it is the competitive dominant in similar habitats elsewhere. Botrylloides diegensis rapidly became a dominant species after its arrival in the Great Bay Estuary, but this dominance was short‐lived. B. diegensis persists in the estuary as an early colonist of primary space and as an epibiont on secondary substrates in established communities. Membranipora membranacea became the dominant epiphyte on laminarian kelps within two years. Although M. membranacea overgrew the native epiphytes Obelia geniculata and Electra pilosa in the overwhelming majority of encounters these native species are more common on other algal hosts. Therefore, competitive dominance is not likely a factor in the successful invasion of the Gulf of Maine by M. membranacea. These species provide evidence for opposing views of the role of competition in mediating community invasion. We show that ecological similarity among species is not an accurate criterion to predict either the mechanism of invasion or the means of persistence. In addition, these data indicate that biological invasions must be examined on broad spatial and temporal scales; short‐term or narrowly focused studies can lead to incorrect conclusions.

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Relation between Cytochrome P450IA1 Expression and Estrogen Receptor Content of Human Breast Cancer Cells

Vickers

Dufresne

Cowan³

1989

Molecular Endocrinology

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Multidrug resistance (MDR) in an MCF-7 human breast cancer cell line (MCF7/Adr) is associated with decreased drug accumulation and overexpression of P-glycoprotein as well as alterations in the levels of specific drug-metabolizing enzymes, including decreased activity of the phase I drug-metabolizing enzyme aryl hydrocarbon hydroxylase (AHH) and increased expression of the anionic form of the phase II drug-metabolizing enzyme glutathione S-transferase. Since the development of MDR in this MCF-7 cell line is also associated with a loss of estrogen receptors (ER), we have examined the expression of cytochrome P450IA 1, the gene encoding AHH activity, in other breast cancer cell lines not selected for drug resistance but expressing various levels of ER. These studies show that a relationship exists between 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)-inducible AHH activity and the ER content in a series of breast cancer cell lines. In these cell lines expression of AHH activity is regulated, at least in part, at the level of P450IA 1 RNA. While TCDD-specific binding proteins (Ah receptors) were found in each of the breast cancer cell lines, there was no apparent relation between the level of nuclear TCDD-binding proteins and the level of TCDD-inducible P450IA 1 expression. Previous studies from our laboratory have described an inverse relationship between levels of the anionic form of glutathione S-transferase and ER in breast cancer.(ABSTRACT TRUNCATED AT 250 WORDS)

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Expression and regulation of three lysosomal cysteine protease activities during growth of a differentiating L6 rat myoblast cell line and its nonfusing variant

Jane¹,

Dufresne²

1994

Biochem. Cell Biol.

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The expression of three lysosomal cysteine protease activities, cathepsins B, H, and L, was examined during differentiation of L6 rat myoblasts. Analyses of intracellular levels of these proteases in unfractionated homogenates prepared from cells at different stages of growth and in parallel HPLC-fractionated samples demonstrated a fusion-related increase in all three cathepsins. Analyses of total levels of endogenous inhibitor activity against purified cathepsin B demonstrated a threefold increase in the ratio of protease to inhibitor during myoblast-myotube formation; however, levels of inhibitor activity remained constant. Extracellular levels of cathepsin B, H, and L activities were also examined in the serum-free defined media of differentiating L6 cells. These studies demonstrated a fusion-related increase in extracellular levels of acid/pepsin-activated (i.e., latent) cathepsin L. While increases in intracellular and extracellular levels of cathepsin activities were temporally related to the fusion process, fusion may not be a prerequisite for increased expression, since the nonfusing L6 variant L6-D3 demonstrated high levels of intracellular cathepsins B and L and extracellular latent cathepsin L activities throughout growth. Taken together, these results support the hypotheses that fusion or fusion-related processes play an important role in the controlled expression of cathepsins in L6 myoblasts and that cathepsins, in turn, play an important role in myoblast-myotube differentiation.

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Cathepsin B localizes to plasma membrane caveolae of differentiating myoblasts and is secreted in an active form at physiological pH

Jane

Morvay²,

DaSilva³

et al. 2006

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Evidence for the involvement of cathepsin B in skeletal myoblast differentiation

Jane

DaSilva

Koblinski

et al. 2002

J of Cellular Biochemistry

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Our previous studies suggest that the cysteine protease cathepsin B (catB) is involved in skeletal myoblast differentiation (myogenesis). To test this hypothesis, we examined the effect of trapping one of the two catB alleles on the ability of C2C12 cells to differentiate. During differentiation, catB gene-trapped C2C12 mouse myoblasts (RT-27) demonstrated a similar pattern of intracellular catB activity and protein expression compared to that observed in control C2C12 myoblasts and myoblasts trapped in a gene other than catB. However, compared to control myoblast cell lines, levels of catB activity and protein at each stage of RT-27 differentiation were reduced. The reductions in levels of catB were associated with reductions in several myogenic phenotypes including reduced levels of creatine phosphokinase activity and myosin heavy chain protein, two late biochemical markers of myogenesis, and reduced myotube size and extent of myotube formation over time. Comparable reductions were not observed for myogenin protein, an early biochemical marker of myogenesis, or in myokinase activity and catB related cathepsin L-type activity, two non-specific proteins. Finally, both control and catB gene-trapped myoblasts secreted active catB at pH 7.0. However levels of active pericellular/secreted catB were 50% lower in catB gene-trapped myoblasts. Collectively, these results support a functional link between catB expression and skeletal myogenesis and suggest a role for active pericellular/secreted catB in myoblast fusion.

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