Role of spleen macrophages in the clearance of scrapie agent early in pathogenesis

The involvement of spleen macrophages in the early stages of scrapie pathogenesis was studied by applying the ‘macrophage‐suicide technique’ to scrapie‐infected mice. This method comprises critically the intravenous administration to mice of dichloromethylene disphosphonate encapsulated into liposom...

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Published in:	The Journal of pathology Vol. 190; no. 4; pp. 495 - 502
Main Authors:	Beringue, Vincent, Demoy, Marina, Lasmézas, Corinne I., Gouritin, Bruno, Weingarten, Colette, Deslys, Jean-Philippe, Andreux, Jean-Paul, Couvreur, Patrick, Dormont, Dominique
Format:	Journal Article
Language:	English
Published:	Chichester, UK John Wiley & Sons, Ltd 01-03-2000 Wiley
Subjects:	Analgesics, Non-Narcotic - pharmacology Animals B-lymphocytes B-Lymphocytes - drug effects B-Lymphocytes - immunology Biological and medical sciences clodronate Clodronic Acid - pharmacology Experimental viral diseases and models follicular dendritic cells Infectious diseases liposomes macrophage Macrophages - drug effects Macrophages - immunology Medical sciences Mice Prions - metabolism PrP scrapie Scrapie - immunology Scrapie - virology spleen Spleen - immunology T-Lymphocytes - drug effects T-Lymphocytes - immunology Viral diseases Immunohistochemistry Scrapie Pathogenesis Diphosphonic acid derivatives Early stage Clearance Bisphosphonates Degenerative disease Spongiform encephalopathy Spleen Nervous system diseases Biochemical analysis Rodentia Liposome Cerebral disorder Clodronic acid Infection Pathology Vertebrata Experimental disease Mammalia Mouse Animal Central nervous system disease Prion Macrophage
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Abstract	The involvement of spleen macrophages in the early stages of scrapie pathogenesis was studied by applying the ‘macrophage‐suicide technique’ to scrapie‐infected mice. This method comprises critically the intravenous administration to mice of dichloromethylene disphosphonate encapsulated into liposomes. Depletion of spleen macrophages before scrapie infection induced an increased amount of scrapie inoculum in the spleen, consequently leading to accelerated scrapie agent replication in the early phase of pathogenesis, as followed by PrPres accumulation, a specific hallmark of scrapie. The same effect was observed when spleen macrophages were depleted just before the beginning of scrapie agent replication. These findings suggest that macrophages may partly control scrapie infection in peripheral tissues by sequestration of the scrapie inoculum and may thus impair early scrapie agent replication in the spleen. In addition to macrophages, most follicular dendritic cells and B lymphocytes, which are thought to support scrapie agent replication, were also transiently depleted by dichloromethylene disphosphonate administration. This suggests that a compensatory mechanism is sufficient to ensure the persistence of infection in these early stages of pathogenesis. Copyright © 2000 John Wiley & Sons, Ltd.
AbstractList	The involvement of spleen macrophages in the early stages of scrapie pathogenesis was studied by applying the ‘macrophage‐suicide technique’ to scrapie‐infected mice. This method comprises critically the intravenous administration to mice of dichloromethylene disphosphonate encapsulated into liposomes. Depletion of spleen macrophages before scrapie infection induced an increased amount of scrapie inoculum in the spleen, consequently leading to accelerated scrapie agent replication in the early phase of pathogenesis, as followed by PrPres accumulation, a specific hallmark of scrapie. The same effect was observed when spleen macrophages were depleted just before the beginning of scrapie agent replication. These findings suggest that macrophages may partly control scrapie infection in peripheral tissues by sequestration of the scrapie inoculum and may thus impair early scrapie agent replication in the spleen. In addition to macrophages, most follicular dendritic cells and B lymphocytes, which are thought to support scrapie agent replication, were also transiently depleted by dichloromethylene disphosphonate administration. This suggests that a compensatory mechanism is sufficient to ensure the persistence of infection in these early stages of pathogenesis. Copyright © 2000 John Wiley & Sons, Ltd. The involvement of spleen macrophages in the early stages of scrapie pathogenesis was studied by applying the 'macrophage-suicide technique' to scrapie-infected mice. This method comprises critically the intravenous administration to mice of dichloromethylene disphosphonate encapsulated into liposomes. Depletion of spleen macrophages before scrapie infection induced an increased amount of scrapie inoculum in the spleen, consequently leading to accelerated scrapie agent replication in the early phase of pathogenesis, as followed by PrPres accumulation, a specific hallmark of scrapie. The same effect was observed when spleen macrophages were depleted just before the beginning of scrapie agent replication. These findings suggest that macrophages may partly control scrapie infection in peripheral tissues by sequestration of the scrapie inoculum and may thus impair early scrapie agent replication in the spleen. In addition to macrophages, most follicular dendritic cells and B lymphocytes, which are thought to support scrapie agent replication, were also transiently depleted by dichloromethylene disphosphonate administration. This suggests that a compensatory mechanism is sufficient to ensure the persistence of infection in these early stages of pathogenesis.
Author	Lasmézas, Corinne I. Andreux, Jean-Paul Weingarten, Colette Dormont, Dominique Gouritin, Bruno Beringue, Vincent Couvreur, Patrick Demoy, Marina Deslys, Jean-Philippe
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Keywords	Immunohistochemistry Scrapie Pathogenesis Diphosphonic acid derivatives Early stage Clearance Bisphosphonates Degenerative disease Spongiform encephalopathy Spleen Nervous system diseases Biochemical analysis Rodentia Liposome Cerebral disorder Clodronic acid Infection Pathology Vertebrata Experimental disease Mammalia Mouse Animal Central nervous system disease Prion Macrophage
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Snippet	The involvement of spleen macrophages in the early stages of scrapie pathogenesis was studied by applying the ‘macrophage‐suicide technique’ to... The involvement of spleen macrophages in the early stages of scrapie pathogenesis was studied by applying the 'macrophage-suicide technique' to...
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SubjectTerms	Analgesics, Non-Narcotic - pharmacology Animals B-lymphocytes B-Lymphocytes - drug effects B-Lymphocytes - immunology Biological and medical sciences clodronate Clodronic Acid - pharmacology Experimental viral diseases and models follicular dendritic cells Infectious diseases liposomes macrophage Macrophages - drug effects Macrophages - immunology Medical sciences Mice Prions - metabolism PrP scrapie Scrapie - immunology Scrapie - virology spleen Spleen - immunology T-Lymphocytes - drug effects T-Lymphocytes - immunology Viral diseases
Title	Role of spleen macrophages in the clearance of scrapie agent early in pathogenesis
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