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JC Virus Infection: An Expanding Spectrum of Neurological Disorders

Published online by Cambridge University Press:  20 June 2018

Alan C. Jackson*
Affiliation:
Departments of Internal Medicine (Neurology) and of Medical Microbiology, University of Manitoba, WinnipegManitoba, Canada
*
Correspondence to: A. C. Jackson, Health Sciences Centre GF-543, 820 Sherbrook Street, Winnipeg, MB, Canada R3A 1R9 Email: ajackson2@hsc.mb.ca
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Abstract

Type
Editorial
Copyright
Copyright © 2018 The Canadian Journal of Neurological Sciences Inc. 

An article by Simon Grandjean Lapierre et alReference Lapierre, Dang, Gilbert, Lauzier, Koralnik and LeBlanc 1 in this issue of the journal reports another case of JC virus granule cell neuronopathy, which was caused both by a known and a novel JC virus variant. It has now been 15 years since this disease was first described by Igor Koralnik et al,Reference Du Pasquier, Corey and Margolin 2 and it has been 60 years since E.P. Richardson, Jr., and others first described and named progressive multifocal leukoencephalopathy (PML).Reference Astom, Mancall and Richardson 3 Progressive multifocal leukoencephalopathy is an opportunistic disease caused by reactivation of latent JC virus that causes infection of oligodendrocytes, resulting in demyelination; in addition, some astrocytes are altered and become enlarged with hyperchomatic nuclei resembling a malignant glioma. In 1965, Gabriele ZuRhein at the University of Wisconsin in Madison discovered the etiology by identifying virus-like particles within oligodendrocyte inclusion bodies using electron microscopy.Reference ZuRhein and Chou 4 Because the particles had a diameter of 39 nm, she correctly postulated at the time that the disease was caused by a papovavirus,Reference ZuRhein and Chou 4 which derives its name from the first syllables of the main subvarieties: papilloma, the wart virus; polyoma, oncogenic properties; and vacuolating virus, which infects monkeys. Thereafter, this finding was soon confirmed by viral cultivation, and the virus was named JC virus after the initials of patient John Cunningham from whom the brain extract was derived.Reference Padgett, Walker, ZuRhein, Eckroade and Dessel 5 JC virus causes a ubiquitous infection in over half of adults, and it is typically acquired during childhood. The virus causes a latent or persistent infection in the kidneys and lymphoid organs. However, only a small fraction of immunocompromised patients infected with JC virus actually develop PML. Progressive multifocal leukoencephalopathy was initially recognized in patients with lymphoproliferative disorders, and subsequently about 85% of cases occurred in patients with human immunodeficiency virus (HIV) infection. In the era of highly active antiretroviral therapy, the incidence of PML has decreased.Reference Engsig, Hansen and Omland 6 Progressive multifocal leukoencephalopathy also occurs in patients receiving immunomodulatory therapies, including natalizumab, which is of particular concern to neurologists managing patients with multiple sclerosis.Reference Mills and Mao-Draayer 7

Although JC virus infection is predominantly associated with PML, a variety of other neurological diseases have been recognized to also be caused by JC virus infection. In 2003, JC virus was first reported to cause productive infection involving granule cell neurons in the cerebellum and is called JC virus granule cell neuronopathy.Reference Du Pasquier, Corey and Margolin 2 Patients present with dysarthria and appendicular, truncal, and gait ataxia, and brain imaging shows cerebellar atrophy. Shortly afterward, it was determined that the tropism for cerebellar granule cells was related to a JC virus variant with a small deletion in the VP1 capsid protein.Reference Koralnik, Wuthrich and Dang 8 In this issue of the journal, Lapierre et alReference Lapierre, Dang, Gilbert, Lauzier, Koralnik and LeBlanc 1 report a patient with prominent cerebellar features without antibodies that are associated with encephalitis or paraneoplastic disorders, and with HIV infection and a positive polymerase chain reaction (PCR) virus assay for JC virus in the CSF. This patient had a JC virus granule cell neuronopathy, and viral DNA sequencing showed coinfection with a previously recognized JC virus variant associated with granule cell neuronopathy and also with a novel JC virus variant with different deletions in the VP1 gene coding for the major capsid protein of the JC virus. Hence, it is now known that a variety of viral mutations affecting this viral protein may result in tropism for cerebellar granule cells and may clinically present a degenerative cerebellar disease phenotype.

Recently, another disease, a fulminant JC virus encephalopathy with progressive cognitive decline, aphasia, and seizures, was described in 2009, in which there was productive infection of cortical pyramidal neurons by JC virus.Reference Wuthrich, Dang and Westmoreland 9 Interestingly, this patient showed JC virus with an agnogene deletion that resulted in a 10-amino-acid truncation of a peptide in a viral protein.Reference Dang, Wuthrich, Gordon, Sawa and Koralnik 10 This deletion has been found to impair expression of the VP1 structural protein and, hence, production of progeny virus.Reference Ellis, Norton, Dang and Koralnik 11 Another case was recently described in a kidney transplant recipient.Reference Bialasiewicz, Hart and Oliver 12 In 2017, JC virus meningitis was reported in a patient with recurrent infections who later developed lymphocytopenia and presented with cognitive and gait impairment with urinary incontinence and had communicating hydrocephalus.Reference Agnihotri, Wuthrich and Dang 13 There was postmortem evidence of productive JC virus infection involving leptomeningeal and choroid plexus cells,Reference Agnihotri, Wuthrich and Dang 13 and recent studies have shown that JC virus productively infects both choroid plexus epithelial cells and meningeal cells in vitro.Reference O’Hara, Gee, Atwood and Haley 14

The diagnosis of these neurological diseases is based on detection of JC virus DNA using PCR methods in cerebrospinal fluid (CSF) or immunohistochemical detection of JC virus antigen in brain biopsy specimens. JC virus variants have shown tropisms for a variety of neural cells types: oligodendrocytes and astrocytes in PML, cerebellar granule cells in granule cell neuronopathy, cortical pyramidal neurons in encephalopathy, and meningeal and choroid plexus cells in meningitis. All of these neurological diseases occur in an immunocompromised state either with or without associated HIV infection. One wonders how many other neurological diseases, especially in immunocompromised patients, may also be shown to be associated with mutations of JC virus. In the future, we should consider PCR assays for JC virus in the CSF for puzzling degenerative neurological diseases in immunocompromised patients and perhaps also in other patients without a recognized immunocompromised state.

Disclosures

The author does not have any conflicts of interest to disclose.

References

1. Lapierre, SG, Dang, X, Gilbert, D, Lauzier, S, Koralnik, IJ, LeBlanc, L. JC virus granule cell neuronopathy as AIDS presenting illness: a case report and review. Can J Neurol Sci. 2018. doi:10.1017/cjn.2018.28.Google Scholar
2. Du Pasquier, RA, Corey, S, Margolin, DH, et al. Productive infection of cerebellar granule cell neurons by JC virus in an HIV+ individual. Neurology. 2003;61:775-782.Google Scholar
3. Astom, KE, Mancall, EL, Richardson, EP Jr. Progressive multifocal leuko-encephalopathy; a hitherto unrecognized complication of chronic lymphatic leukaemia and Hodgkin’s disease. Brain. 1958;81:93-111.Google Scholar
4. ZuRhein, GM, Chou, SM. Particles resembling papova viruses in human cerebral demyelinating disease. Science. 1965;148:1477-1479.Google Scholar
5. Padgett, BL, Walker, DL, ZuRhein, GM, Eckroade, RJ, Dessel, BH. Cultivation of papova-like virus from human brain with progressive multifocal leucoencephalopathy. Lancet. 1971;1:1257-1260.Google Scholar
6. Engsig, FN, Hansen, AB, Omland, LH, et al. Incidence, clinical presentation, and outcome of progressive multifocal leukoencephalopathy in HIV-infected patients during the highly active antiretroviral therapy era: a nationwide cohort study. J Infect Dis. 2009;199:77-83.Google Scholar
7. Mills, EA, Mao-Draayer, Y. Understanding progressive multifocal leukoencephalopathy risk in multiple sclerosis patients treated with immunomodulatory therapies: a bird’s eye view. Front Immunol. 2018;9:138.Google Scholar
8. Koralnik, IJ, Wuthrich, C, Dang, X, et al. JC virus granule cell neuronopathy: a novel clinical syndrome distinct from progressive multifocal leukoencephalopathy. Ann Neurol. 2005;57:576-580.Google Scholar
9. Wuthrich, C, Dang, X, Westmoreland, S, et al. Fulminant JC virus encephalopathy with productive infection of cortical pyramidal neurons. Ann Neurol. 2009;65:742-748.Google Scholar
10. Dang, X, Wuthrich, C, Gordon, J, Sawa, H, Koralnik, IJ. JC virus encephalopathy is associated with a novel agnoprotein-deletion JCV variant. PLoS ONE. 2012;7:e35793.CrossRefGoogle ScholarPubMed
11. Ellis, LC, Norton, E, Dang, X, Koralnik, IJ. Agnogene deletion in a novel pathogenic JC virus isolate impairs VP1 expression and virion production. PLoS ONE. 2013;8:e80840.CrossRefGoogle Scholar
12. Bialasiewicz, S, Hart, G, Oliver, K, et al. A difficult decision: atypical JC polyomavirus encephalopathy in a kidney transplant recipient. Transplantation. 2017;101:1461-1467.Google Scholar
13. Agnihotri, SP, Wuthrich, C, Dang, X, et al. A fatal case of JC virus meningitis presenting with hydrocephalus in a human immunodeficiency virus-seronegative patient. Ann Neurol. 2014;76:140-147.Google Scholar
14. O’Hara, BA, Gee, GV, Atwood, WJ, Haley, SA. Susceptibility of primary human choroid plexus epithelial cells and meningeal cells to infection by JC virus. J Virol. 2018 (In press).CrossRefGoogle ScholarPubMed