OBJECTIVE: Recent studies in peripheral blood mononuclear cells (PBMCs) have indicated that exacerbations of multiple sclerosis (MS) could be associated with the reactivation of latent varicella-zoster virus (VZV). METHODS: Ultrastructural observations for viral particles were made by electron microscopy in cerebrospinal fluid (CSF) from 15 MS patients during relapse, 19 MS patients during remission, and 28 control subjects. Initial findings were reproduced in a confirmation cohort. In addition, DNA from VZV was quantified by real-time polymerase chain reaction in PBMCs and CSF from a large number of MS patients (n = 78). RESULTS: We found by electron microscopy the presence of abundant viral particles identical to VZV in CSF obtained from MS patients within the first few days of an acute relapse. In contrast, viral particles were not seen in CSF samples from MS patients in remission or from neurological control subjects. Also, DNA from VZV was present in CSF and in PBMCs during relapse, disappearing in most patients during remission. The mean viral load was 542 times greater in CSF at relapse than in CSF at remission and 328 times greater in CSF at relapse than in PBMCs at relapse. INTERPRETATION: The ultrastructural finding of viral particles identical to VZV, together with the simultaneous presence of large quantities of DNA from VZV in the subarachnoid space, almost restricted to the periods of exacerbation, as well as its steady diminution and eventual disappearance from clinical relapse to clinical remission are surprising and constitute the strongest evidence to support the participation of VZV in the pathogenesis of MS.
OBJECTIVE: Recent studies in peripheral blood mononuclear cells (PBMCs) have indicated that exacerbations of multiple sclerosis (MS) could be associated with the reactivation of latent varicella-zoster virus (VZV). METHODS: Ultrastructural observations for viral particles were made by electron microscopy in cerebrospinal fluid (CSF) from 15 MSpatients during relapse, 19 MSpatients during remission, and 28 control subjects. Initial findings were reproduced in a confirmation cohort. In addition, DNA from VZV was quantified by real-time polymerase chain reaction in PBMCs and CSF from a large number of MSpatients (n = 78). RESULTS: We found by electron microscopy the presence of abundant viral particles identical to VZV in CSF obtained from MSpatients within the first few days of an acute relapse. In contrast, viral particles were not seen in CSF samples from MSpatients in remission or from neurological control subjects. Also, DNA from VZV was present in CSF and in PBMCs during relapse, disappearing in most patients during remission. The mean viral load was 542 times greater in CSF at relapse than in CSF at remission and 328 times greater in CSF at relapse than in PBMCs at relapse. INTERPRETATION: The ultrastructural finding of viral particles identical to VZV, together with the simultaneous presence of large quantities of DNA from VZV in the subarachnoid space, almost restricted to the periods of exacerbation, as well as its steady diminution and eventual disappearance from clinical relapse to clinical remission are surprising and constitute the strongest evidence to support the participation of VZV in the pathogenesis of MS.
Authors: Liisa K Selin; Myriam F Wlodarczyk; Anke R Kraft; Siwei Nie; Laurie L Kenney; Roberto Puzone; Franco Celada Journal: Autoimmunity Date: 2011-01-20 Impact factor: 2.815
Authors: Mark P Burgoon; Randall J Cohrs; Jeffrey L Bennett; Sarah W Anderson; Alanna M Ritchie; Sabine Cepok; Bernhard Hemmer; Don Gilden; Gregory P Owens Journal: Ann Neurol Date: 2009-04 Impact factor: 10.422
Authors: Til Menge; Martin S Weber; Bernhard Hemmer; Bernd C Kieseier; Hans-Christian von Büdingen; Clemens Warnke; Scott S Zamvil; Aaron Boster; Omar Khan; Hans-Peter Hartung; Olaf Stüve Journal: Drugs Date: 2008 Impact factor: 9.546