Hanol and analyzed by SDS-PAGE. Figure 3B shows that there was a clear cleavage of PARP in cell lysates after co-incubatation with pre-fibrillar TTR-A, with fragments of the expected sizes. When TTR-A was mixed with 1.5 mM SAP, a clear reduction in the cleavage was observed, while in the presence of 3 mM SAP no traceable fragments of PARP were seen imilarly to the control IMR-32 cells that were treated with neither TTR-A nor SAP.DiscussionThe physiological significance of SAP is not well understood. No deficiency state has been reported in any mammalian species, which indicates that it has an important conserved physiological function. A number of biological properties have been suggested, some of which are contradictory. The highly specific binding of SAP to nuclear chromatin, in vitro and in vivo, and the solubilizing effect of this interaction on the otherwise insoluble chromatin may be functionally important. It has been suggested that SAP prevents an autoimmune reaction by binding to free chromatin, although this has been disputed [41]. There is as yet no known biophysical basis for 18325633 why SAP binds to such structurally different molecules as DNA, histones, and LPS. Amyloid formation with similar structure and similar toxic propensities appears to be an inherent property of the I-BET151 amyloidogenic proteins [42]. SAP binds to most types of amyloid fibrils in vivo, to fibrils extracted ex vivo, and to fibrils formed from pure proteins or peptides in vitro, suggesting interaction with a structural motif that is common to all amyloid fibrils. It has been suggested that decoration of amyloid fibrils with SAP prevents the fibrils from degradation by proteases [43]. Contradictory results have been published concerning the ability of SAP to promote and to prevent Ab aggregation [22,23]. Our finding that in vitro aggregation of TTR is not affected by SAP supports the notion that SAP is dispensable for the formation of amyloid fibers (Fig. 1C). Furthermore, induction of SAP synthesis in transgenic mice does not appear to affect the onset and extent of TTR deposition [25].Co-expression of SAP and TTR-A in Drosophila Protects from Development of the Dragged-wing PhenotypeSoon after eclosure, Drosophila melanogaster overexpressing the secreted form of TTR-A, but not wild-type TTR, develops the dragged-wing phenotype [32]. This early phenotype reflected the overall state of toxic TTR-A formed in fruit flies and correlated well with other TTR-A-induced phenotypes such as neurodegeneration, locomotor dysfunction, and premature death. In the experiment (Fig. 4A), we used two independent transgenic lines with a single copy of the TTR-A gene (designated TTRA-1 and TTRA-2) that showed variable frequency of abnormal wings (,60?4 625 ). Figure 4A demonstrates a significant protective effect of SAP co-expression (in four independent SAPexpressing transgenic strains) on the TTR-induced phenotype, seen as a reduction in dragged-wing I-CBP112 posture (below 20 , red line) to almost complete rescue (,1.3 ). Overexpression of SAP on its own in these strains did not lead to any noticeable alterations in wing position. The protection against TTR-A toxicity by SAP was dose-dependent, as increased levels of SAP expression (normalizedSAP and Aggregation-Induced Cell DeathFigure 3. SAP prevents TTR-induced toxicity. (A) TUNEL staining of cells treated with amyloid protofibrils in the presence of SAP. IMR-32 cells were exposed to 20 mM TTR-A (upper row) or 20 mM TTR-D (lower row). T.Hanol and analyzed by SDS-PAGE. Figure 3B shows that there was a clear cleavage of PARP in cell lysates after co-incubatation with pre-fibrillar TTR-A, with fragments of the expected sizes. When TTR-A was mixed with 1.5 mM SAP, a clear reduction in the cleavage was observed, while in the presence of 3 mM SAP no traceable fragments of PARP were seen imilarly to the control IMR-32 cells that were treated with neither TTR-A nor SAP.DiscussionThe physiological significance of SAP is not well understood. No deficiency state has been reported in any mammalian species, which indicates that it has an important conserved physiological function. A number of biological properties have been suggested, some of which are contradictory. The highly specific binding of SAP to nuclear chromatin, in vitro and in vivo, and the solubilizing effect of this interaction on the otherwise insoluble chromatin may be functionally important. It has been suggested that SAP prevents an autoimmune reaction by binding to free chromatin, although this has been disputed [41]. There is as yet no known biophysical basis for 18325633 why SAP binds to such structurally different molecules as DNA, histones, and LPS. Amyloid formation with similar structure and similar toxic propensities appears to be an inherent property of the amyloidogenic proteins [42]. SAP binds to most types of amyloid fibrils in vivo, to fibrils extracted ex vivo, and to fibrils formed from pure proteins or peptides in vitro, suggesting interaction with a structural motif that is common to all amyloid fibrils. It has been suggested that decoration of amyloid fibrils with SAP prevents the fibrils from degradation by proteases [43]. Contradictory results have been published concerning the ability of SAP to promote and to prevent Ab aggregation [22,23]. Our finding that in vitro aggregation of TTR is not affected by SAP supports the notion that SAP is dispensable for the formation of amyloid fibers (Fig. 1C). Furthermore, induction of SAP synthesis in transgenic mice does not appear to affect the onset and extent of TTR deposition [25].Co-expression of SAP and TTR-A in Drosophila Protects from Development of the Dragged-wing PhenotypeSoon after eclosure, Drosophila melanogaster overexpressing the secreted form of TTR-A, but not wild-type TTR, develops the dragged-wing phenotype [32]. This early phenotype reflected the overall state of toxic TTR-A formed in fruit flies and correlated well with other TTR-A-induced phenotypes such as neurodegeneration, locomotor dysfunction, and premature death. In the experiment (Fig. 4A), we used two independent transgenic lines with a single copy of the TTR-A gene (designated TTRA-1 and TTRA-2) that showed variable frequency of abnormal wings (,60?4 625 ). Figure 4A demonstrates a significant protective effect of SAP co-expression (in four independent SAPexpressing transgenic strains) on the TTR-induced phenotype, seen as a reduction in dragged-wing posture (below 20 , red line) to almost complete rescue (,1.3 ). Overexpression of SAP on its own in these strains did not lead to any noticeable alterations in wing position. The protection against TTR-A toxicity by SAP was dose-dependent, as increased levels of SAP expression (normalizedSAP and Aggregation-Induced Cell DeathFigure 3. SAP prevents TTR-induced toxicity. (A) TUNEL staining of cells treated with amyloid protofibrils in the presence of SAP. IMR-32 cells were exposed to 20 mM TTR-A (upper row) or 20 mM TTR-D (lower row). T.
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