Dipartimento di Biologia e Patologia Cellulare e Molecolare, Centro di Endocrinologia ed Oncologia Sperimentale del Consiglio Nazionale delle Ricerche, Universit degli Studi di Napoli Federico II, 80131 Napoli, Italy.
PrP(C) is a glycosylphosphatidylinositol-anchored protein expressed in neurons as well as in the cells of several peripheral tissues. Although the normal function of PrP(C) remains unknown, a conformational isoform called PrP(Sc) (scrapie) has been proposed to be the infectious agent of transmissible spongiform encephalopathies in animals and humans. Where and how the PrP(C) to PrP(Sc) conversion occurs in the cells is not yet known. Therefore, dissecting the intracellular trafficking of the wild-type prion protein, as well as of the scrapie isoform, can be of major relevance to the pathogenesis of the diseases. In this report we have analyzed the exocytic pathway of transfected mouse PrP(C) in thyroid and kidney polarized epithelial cells. In contrast to the majority of glycosylphosphatidylinositol-anchored proteins, we found that PrP(C) is localized mainly on the basolateral domain of the plasma membrane of both cell lines. This is reminiscent of the predominant somatodendritic localization found in neurons. However, similarly to apical glycosylphosphatidylinositol-proteins, PrP(C) associates with detergent-resistant microdomains, which have been suggested to have a role in apical sorting of glycosylphosphatidylinositol-proteins, as well as in the conversion process of PrP(C) to PrP(Sc). In order to discriminate whether detergent-resistant microdomains have a direct role in PrP(Sc) conversion, or whether they are involved in the transport of the protein to the site of its conversion, we have examined the effect of disruption of detergent-resistant microdomain association on PrP(C) intracellular traffic. Consistent with the unusual basolateral localization of this glycosylphosphatidylinositol-linked protein, our data exclude a classical role for detergent-resistant microdomains in the post-trans-Golgi network sorting and transport of PrP(C) to the plasma membrane.
PMID:_12383347
J Biol Chem. 2002 Dec 6;277(49):46845-8. Epub 2002 Oct 15. Maspin inhibits cell migration in the absence of protease inhibitory activity.
Bass R, Fernandez AM, Ellis V.
School of Biological Sciences, University of East Anglia, Norwich NR4 7TJ, United Kingdom.
Maspin is a member of the serpin family of protease inhibitors and is a tumor suppressor gene acting at the level of tumor invasion and metastasis. This in vivo activity correlates with the ability of maspin to inhibit cell migration in vitro. This behavior suggests that maspin inhibits matrix-degrading proteases, such as those of the plasminogen activation system, in a similar manner to the serpin PAI-1. However, there is controversy concerning the protease inhibitory activity of maspin. It is devoid of activity against a wide range of proteases, in common with other non-inhibitory serpins, but has recently been reported to inhibit plasminogen activators associated with cells and other biological surfaces (Sheng, S. J., Truong, B., Fredrickson, D., Wu, R. L., Pardee, A. B., and Sager, R. (1998) Proc. Natl. Acad. Sci. U. S. A. 95, 499-504; McGowen, R., Biliran, H., Jr., Sager, R., and Sheng, S. (2000) Cancer Res. 60, 4771-4778). We have compared the effects of maspin with those of PAI-1 in a range of situations in which plasminogen activation is potentiated, reflecting the biological context of this proteolytic system: urokinase-type plasminogen activator bound to its receptor on the surface of tumor cells, tissue-type plasminogen activator specifically bound to vascular smooth muscle cells, fibrin, and the prion protein. Maspin was found to have no inhibitory effect in any of these situations, in contrast to the efficient inhibition observed with PAI-1, but nevertheless maspin inhibited the migration of both tumor and vascular smooth muscle cells. We conclude that maspin is a non-inhibitory serpin and that protease inhibition does not account for its activity as a tumor suppressor.
PMID:_12384513
Transfusion. 2002 Aug;42(8):999-1004. Removal of prion challenge from an immune globulin preparation by use of a size-exclusion filter.
Van Holten RW, Autenrieth S, Boose JA, Hsieh WT, Dolan S.
Immunohematology/RhoGAM, R & D Ortho-Clinical Diagnostics, Raritan, New Jersey 08869, USA. rvanholcdus.jnj.com
BACKGROUND: A size-exclusion filter (Viresolve 180, Millipore Corp.) was tested for its ability to remove transmissible spongiform encephalopathies prion protein from an immune globulin preparation during ultrafiltration. STUDY DESIGN AND METHODS: Hamster-adapted 263K scrapie brain homogenate (SBH) was spiked into Rh0(D) immune globulin (human) at 1 in 300 and 1 in 1000 dilutions. Before spiking, the SBH was treated with detergent, sonicated, and filtered through serial 0.45-, 0.22-, and 0.1-microm filters to present a rigorous filter challenge. Process variables were monitored throughout the ultrafiltration to ensure that the spiked material did not compromise the membrane flux. Removal of scrapie prion protein (PrP(Sc)) material was determined by use of a sensitive Western blot assay. RESULTS: The turbid SBH became completely translucent after sonication and passage through the 0.45-, 0.22-, and 0.1-microm filters. The filtration of the immune globulin containing PrP(Sc) material was more difficult to perform than was filtration of immune globulin spiked with the normal cellular isoform. Even during tangential flow filtration, the fibril material prevented the PrP(Sc)-spiked immune globulin from passing as readily through the filter. Western blot results indicated a removal of greater than or equal to 2.5 log PrP(Sc), while remaining within the normal filtration limits. CONCLUSIONS: The composition, physical condition, and the amount of SBH introduced have significant effects on the filtration of the immune globulin and the log removal values obtained. By use of a detergent-treated, sonicated, and filtered preparation of SBH, it was demonstrated that the Viresolve 180 effectively removes PrP(Sc) from the immune globulin.
PMID:_12385410
Science. 2002 Nov 29;298(5599):1785-8. Epub 2002 Oct 17. Conversion of PrP to a self-perpetuating PrPSc-like conformation in the cytosol.
Ma J, Lindquist S.
Howard Hughes Medical Institute (HHMI), University of Chicago, Chicago, IL 60637, USA.
A rare conformation of the prion protein, PrPSc, is found only in mammals with transmissible prion diseases and represents either the infectious agent itself or a major component of it. The mechanism for initiating PrPSc formation is unknown. We report that PrP retrogradely transported out of the endoplasmic reticulum produced both amorphous aggregates and a PrPSc-like conformation in the cytosol. The distribution between these forms correlated with the rate of appearance in the cytosol. Once conversion to the PrPSc-like conformation occurred, it was sustained. Thus, PrP has an inherent capacity to promote its own conformational conversion in mammalian cells. These observations might explain the origin of PrPSc.
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