Extrachromosomal genetic complementation of surface metalloproteinase (gp63)-deficient Leishmania increases their binding to macrophages.
Xuan Liu,Kwang-Poo Chang +1 more
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TLDR
Evidence presented thus indicates that the gp63 gene constructed in the plasmid as described and introduced exogenously expresses in thegp63-deficient variants and that the expressed products are functionally active.Abstract:
A major surface glycoprotein of 63 kDa (gp63) has been previously identified biochemically and genetically as a zinc proteinase conserved in pathogenic Leishmania spp. The functional significance of this proteinase was analyzed by genetic approaches. A 15-kilobase DNA with a tunicamycin-resistance gene from Leishmania amazonensis was ligated in two different orientations into pBluescript containing a gp63 gene from Leishmania major. These plasmid constructs were used to transfect a variant of L. amazonensis deficient in gp63 expression. Both constructs were found to confer tunicamycin resistance with equal efficiency and remained structurally unchanged in the transfectants. RNA and immunoblot analyses showed over-expression of gp63 in the transfectants with one of the two plasmids constructed. The over-produced products were enzymatically active and expressed on the cell surface. Significantly, the transfectants with over-expressed gp63 increased by 2-fold over controls in their binding to macrophages. Evidence presented thus indicates that the gp63 gene constructed in the plasmid as described and introduced exogenously expresses in the gp63-deficient variants and that the expressed products are functionally active.read more
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The immune response to Leishmania: mechanisms of parasite control and evasion
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Migration through the Extracellular Matrix by the Parasitic Protozoan Leishmania Is Enhanced by Surface Metalloprotease gp63
TL;DR: Leishmania species engineered to express high levels of the surface metalloprotease gp63 have enhanced capacity of migration through extracellular matrix in vitro, which suggests an important role for gp63 in the pathogenesis of leishmaniasis.
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Interaction of Leishmania gp63 with Cellular Receptors for Fibronectin
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References
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Journal Article
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