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Successful Management of Natalizumab-Associated Progressive Multifocal Leukoencephalopathy and Immune Reconstitution Syndrome in a Patient With Multiple Sclerosis FREE

Alexandra Schröder, MD; De-Hyung Lee, MD; Kerstin Hellwig, MD; Carsten Lukas, MD; Ralf A. Linker, MD; Ralf Gold, MD
[+] Author Affiliations

Author Affiliations: Departments of Neurology (Drs Schröder, Lee, Hellwig, Linker, and Gold); and Radiology (Dr Lukas), St Josef-Hospital, Ruhr-University Bochum, Bochum, Germany.


Arch Neurol. 2010;67(11):1391-1394. doi:10.1001/archneurol.2010.157.
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Published online

Progressive multifocal leukoencephalopathy (PML) is a rare neurological disease caused by infection with a human polyoma JC virus (JCV).1 It is characterized by infection and lysis of oligodendrocytes and subsequent demyelination of the central nervous system white matter, predominantly involving the brain at multiple locations. While latent infection with JCV is widespread—about 70% of the general population harbors JC antibodies—PML is mainly observed in immunocompromised patients such as those receiving immunosuppressive medication after transplantation or chemotherapy or those with HIV infection but sometimes it is observed in patients with only occult immunosuppression.2 Recently, several PML cases were reported in patients with multiple sclerosis (MS) who were receiving long-term treatment with natalizumab.3,4 Since February 2005, at least 31 PML cases associated with natalizumab treatment of MS have been confirmed. The exact sequelae of events leading to the development of PML while receiving natalizumab are still unknown.5 Although guidelines for patient selection and monitoring have been proposed6,7 and several experimental therapies have been described,8 there is no established treatment of PML and associated complications in these patients yet.

REPORT OF A CASE

At 21 years of age, a female patient was diagnosed with relapsing-remitting MS at an outside hospital. For more than 15 years, she was treated with different immunomodulatory therapies including intravenous immunoglobulins and interferon β 1a (30 μg once weekly). After experiencing breakthrough disease including repeated relapses with motor involvement, EDSS progression, and magnetic resonance imaging (MRI) activity, the patient presented to our outpatient clinic and started receiving therapy with natalizumab. At this time, her Expanded Disability Status Scale (EDSS) score was 3.5. Control cerebral MRI studies after 1 and 2 years of natalizumab treatment did not detect new lesions. The patient remained relapse free with a stable EDSS of 3.5 and without any neuropsychological symptoms. After the 29th natalizumab application, the patient was hospitalized after 2 generalized seizures for the first time in her life. Immediately, a new cranial MRI was performed. T2-weighted imaging revealed a new, atypical white matter lesion in the left frontal lobe with faint gadolinium enhancement at the margin (Figure, A and D).

Place holder to copy figure label and caption
Figure.

Serial axial postcontrast T1-weighted (A-C) and T2-weighted (D-F) magnetic resonance images of the brain at the point of progressive multifocal leukoencephalopathy diagnosis (A and D), in the immune reconstitution syndrome phase (B and E), and after treatment (C and F).

Graphic Jump Location

On neuropsychological evaluation, the patient was awake, alert, and oriented but showed signs of disinhibition and some attentional deficit. Motor function was not affected, and the patient only showed the preexisting mild right-sided hemiparesis and a mild gait ataxia. Her EDSS score was 4.0. Routine laboratory and cerebrospinal fluid testing did not reveal any significant findings, and results of HIV testing were negative. JC virus polymerase chain reaction in the CSF repeatedly tested positive, with copy detection of 1387/mL, while in the plasma, there were only 28/mL. In the urine, JC virus replication could not be detected.

After establishing a diagnosis of PML, the patient was treated with 5 courses of plasma exchange to accelerate removal of natalizumab from the blood circulation. In addition, the patient received 60 mg per day of mirtazapine and a loading dose of 250 mg by mouth of mefloquine for 3 days.9 Subsequently, mefloquine was continued at a dose of 250 mg once per week. One week after completion of plasma exchange therapy, the patient showed progressive cognitive decline with somnolence and slowing of psychomotor function. A new cranial MRI scan revealed an increase of the left frontal lesion associated with mass effect and compression of the anterior horn of both lateral ventricles and persistent contrast enhancement compatible with an immune reconstitution syndrome (IRIS) (Figure, B and E). Methylprednisolone was given at a dosage of 500 mg/d for 5 days. Additionally, treatment of cerebral edema with mannitol at a dose of 4 × 125 mL/d was initiated and continued for a total of 4 days. During this regimen, with intensive care unit monitoring, the patient showed rapid amelioration of vigilance as well as cognitive function and was again awake and alert, with only some mild residual signs of frontal inhibition. Follow-up cranial MRI scans revealed a residual left frontal demyelinating lesion with persistent marginal contrast enhancement but no mass effect (Figure, C and F). In the further course, the patient clinically further improved with an EDSS of 3.5. After 1 month of treatment, polymerase chain reaction copy numbers for JCV in the cerebrospinal fluid had significantly decreased to 169/mL while numbers in the plasma were unchanged. After 3 months of treatment, JCV DNA was undetectable in the cerebrospinal fluid, plasma, and urine. At this time, mefloquine and mirtazapine were discontinued and the patient started receiving immunomodulatory therapy with glatiramer acetate.

COMMENT

Here we describe the successful clinical management of natalizumab-associated PML and IRIS in a patient with relapsing-remitting MS. We combined plasma exchange for removal of natalizumab, mefloquine, and mirtazapine to limit viral replication or cellular JCV infection and applied glucocorticosteroids for the treatment of IRIS and concomitant edema. This regimen yielded a favorable outcome. In the present case, the good outcome may relate to the location of the lesion in a noneloquent region, the lack of immunosuppressive pretreatment before natalizumab, and, most importantly, the early comprehensive treatment of PML and IRIS.

While there is no established therapy for PML, observation of patients with HIV reveals that rapid reconstitution of the immune system is most favorable for controlling JCV replication.10 Recently, it has been shown that natalizumab clearance might be associated with restored leukocyte function.11 Hence, rapid natalizumab elimination seems a prerequisite to limit JCV-associated tissue damage. In a setting where suspected PML is not easy to delimit from MS relapse and diagnostic procedures for PML need further time, a rapid decision for plasma exchange may be made on an empirical basis and will also be beneficial for controlling eventual MS-related inflammatory activity.12

Until reaching endogenous control of virus replication via reconstitution of the immune system, pharmacologic approaches may further help limit JC virus infection of oligodendrocytes. In most cases, evidence of efficacy is either only anecdotal or first positive reports were later refuted in more comprehensive analyses. Recently, in vitro studies revealed that the serotonin receptor 5-HT(2A)R acts as a cellular receptor for JCV on human glial cells.13 While small case series and case reports describe beneficial effects of the serotonin reuptake inhibitor mirtazapine in patients with PML,14,15 another article suggests that this regimen added little value to patient survival.16 Moreover, an in vitro screening assay of 2000 approved drugs and biologically active molecules for their anti-JCV activities revealed that mefloquine efficiently inhibited viral replication in cells after viral entry.9 In our case, combination therapy including mirtazapine and mefloquine at a dosage used in malaria prophylaxis was well tolerated. In the future, systematic studies of the efficacy and optimal dosage of these compounds in the treatment of PML are highly warranted.

In the setting of immune reconstitution after natalizumab removal, a paradoxical transient worsening of symptoms may occur. This immune reconstitution syndrome is associated with a pathological inflammatory response and may lead to substantial short-term morbidity and even mortality. Although the incidence of IRIS in HIV-associated PML has not been systematically studied, it may occur in at least 30% of patients with HIV after highly active antiretroviral therapy initiation. Risk factors include a low CD4 count, the presence of latent infections, and a strong response to highly active antiretroviral therapy.17,18 Cases of IRIS are also reported in patients with HIV who have PML.19,20 Here, worsening of neurological symptoms, increase in viral load, and MRI changes including cerebral edema and contrast enhancement of lesions may occur within 4 weeks after immune reconstitution. This course is consistent with the worsening of symptoms in our patient after plasma exchange. Apparently, this IRIS phase critically determines the outcome of PML cases while taking natalizumab. In this condition, intensive care management and even mechanical ventilation may be needed.3,4 In the case of suspected worsening, MRI may reveal signs of IRIS. For treatment of IRIS in patients with HIV who have PML, a series of 12 patients described a beneficial outcome in 58% of cases treated with steroids.20 In our patient, the rapid amelioration of symptoms after treatment with high-dose methylprednisolone underscores the use of anti-inflammatory and antiedematous treatment of PML-associated IRIS. Further studies are needed to determine the optimal duration and dose of steroids in this setting.

In classic PML, MRI contrast enhancement at baseline is rarely described. The situation may differ in natalizumab-associated PML in which contrast enhancement was observed in 12 of 28 patients (43%),21 as also seen in our present case. While in some HIV-PML studies, contrast enhancement may be a predictive factor for patient survival, the prognostic value in natalizumab-associated PML is not clear to date.

In summary, natalizumab-associated PML is a severe, potentially life-threatening adverse effect of natalizumab therapy in MS. Yet, in the early diagnosis and active treatment of IRIS phase, there may be a favorable outcome.

ARTICLE INFORMATION

Correspondence: Ralf Gold, MD, Department of Neurology, St Josef-Hospital, Ruhr-University Bochum, Gudrunstrasse 56, 44791 Bochum, Germany (ralf.gold@rub.de).

Accepted for Publication: May 5, 2010.

Published Online: July 12, 2010. doi:10.1001/archneurol.2010.157

Author Contributions:Study concept and design: Schröder, Linker, and Gold. Acquisition of data: Schröder, Lee, Hellwig, and Linker. Analysis and interpretation of data: Schröder, Lee, Lukas, Linker, and Gold. Drafting of the manuscript: Hellwig, Lukas, Linker, and Gold. Critical revision of the manuscript for important intellectual content: Schröder, Lee, Linker, and Gold. Administrative, technical, and material support: Schröder, Lee, Hellwig, Lukas, and Gold. Study supervision: Linker and Gold.

Financial Disclosure: Dr Gold reports receiving speaker and consulting honoraria and grant support from Biogen Idec.

Additional Contributions: We thank Tuan Dong-Si, MD, and Eugene Major, MD, for cooperation and performing polymerase chain reaction analysis of JC virus.

REFERENCES

Koralnik  IJ Progressive multifocal leukoencephalopathy revisited: has the disease outgrown its name? Ann Neurol 2006;60 (2) 162- 173
PubMed Link to Article
Gheuens  SPierone  GPeeters  PKoralnik  IJ Progressive multifocal leukoencephalopathy in individuals with minimal or occult immunosuppression [published online ahead of print October 14, 2009]. J Neurol Neurosurg Psychiatry 2010;81 (3) 247- 254
PubMed Link to Article
Lindå  H von Heijne  AMajor  EO  et al.  Progressive multifocal leukoencephalopathy after natalizumab monotherapy. N Engl J Med 2009;361 (11) 1081- 1087
PubMed Link to Article
Wenning  WHaghikia  ALaubenberger  J  et al.  Treatment of progressive multifocal leukoencephalopathy associated with natalizumab. N Engl J Med 2009;361 (11) 1075- 1080
PubMed Link to Article
Chen  YBord  ETompkins  T  et al.  Asymptomatic reactivation of JC virus in patients treated with natalizumab. N Engl J Med 2009;361 (11) 1067- 1074
PubMed Link to Article
Kappos  LBates  DHartung  HP  et al.  Natalizumab treatment for multiple sclerosis: recommendations for patient selection and monitoring. Lancet Neurol 2007;6 (5) 431- 441
PubMed Link to Article
Gold  RJawad  AMiller  DH  et al.  Expert opinion: guidelines for the use of natalizumab in multiple sclerosis patients previously treated with immunomodulating therapies. J Neuroimmunol 2007;187 (1-2) 156- 158
PubMed Link to Article
Stüve  OMarra  CMCravens  PD  et al.  Potential risk of progressive multifocal leukoencephalopathy with natalizumab therapy: possible interventions. Arch Neurol 2007;64 (2) 169- 176
PubMed Link to Article
Brickelmaier  MLugovskoy  AKartikeyan  R  et al.  Identification and characterization of mefloquine efficacy against JC virus in vitro. Antimicrob Agents Chemother 2009;53 (5) 1840- 1849
PubMed Link to Article
Bossolasco  SCalori  GMoretti  F  et al.  Prognostic significance of JC virus DNA levels in cerebrospinal fluid of patients with HIV-associated progressive multifocal leukoencephalopathy. Clin Infect Dis 2005;40 (5) 738- 744
PubMed Link to Article
Khatri  BOMan  SGiovannoni  G  et al.  Effect of plasma exchange in accelerating natalizumab clearance and restoring leukocyte function. Neurology 2009;72 (5) 402- 409
PubMed Link to Article
Weinshenker  BGO'Brien  PCPetterson  TM  et al.  A randomized trial of plasma exchange in acute central nervous system inflammatory demyelinating disease. Ann Neurol 1999;46 (6) 878- 886
PubMed Link to Article
Elphick  GFQuerbes  WJordan  JA  et al.  The human polyomavirus, JCV, uses serotonin receptors to infect cells. Science 2004;306 (5700) 1380- 1383
PubMed Link to Article
Cettomai  D McArthur  JC Mirtazapine use in human immunodeficiency virus–infected patients with progressive multifocal leukoencephalopathy. Arch Neurol 2009;66 (2) 255- 258
PubMed Link to Article
Verma  SCikurel  KKoralnik  IJ  et al.  Mirtazapine in progressive mutlifocal leukencephalopathy associated with polycythemia vera [published online ahead of print July 13, 2007]. J Infect Dis 2007;196709- 777
PubMed Link to Article
Marzocchetti  ATompkins  TClifford  DB  et al.  Determinants of survival in progressive multifokal leukencephalopathy. Neurology 2009;73 (19) 1551- 1558
PubMed Link to Article
Manabe  YCCampbell  JDSydnor  EMoore  RD Immune reconstitution inflammatory syndrome: risk factors and treatment implications. J Acquir Immune Defic Syndr 2007;46 (4) 456- 462
PubMed Link to Article
Shelburne  SAMontes  MHamill  RJ Immune reconstitution inflammatory syndrome: more answers, more questions. J Antimicrob Chemother 2006;57 (2) 167- 170
PubMed Link to Article
Martinez  JVMazziotti  JVEfron  ED  et al.  Immune reconstitution inflammatory syndrome associated with PML in AIDS: a treatable disorder. Neurology 2006;67 (9) 1692- 1694
PubMed Link to Article
Tan  KRoda  ROstrow  L McArthur  JNath  A PML-IRIS in patients with HIV infection: clinical manifestations and treatment with steroids. Neurology 2009;72 (17) 1458- 1464
PubMed Link to Article
Clifford  DBDe Luca  ASimpson  DM  et al.  Natalizumab-associated progressive multifocal leukoencephalopathy in patients with multiple sclerosis: lessons from 28 cases. Lancet Neurol 2010;9 (4) 438- 446
PubMed Link to Article

Figures

Place holder to copy figure label and caption
Figure.

Serial axial postcontrast T1-weighted (A-C) and T2-weighted (D-F) magnetic resonance images of the brain at the point of progressive multifocal leukoencephalopathy diagnosis (A and D), in the immune reconstitution syndrome phase (B and E), and after treatment (C and F).

Graphic Jump Location

Tables

References

Koralnik  IJ Progressive multifocal leukoencephalopathy revisited: has the disease outgrown its name? Ann Neurol 2006;60 (2) 162- 173
PubMed Link to Article
Gheuens  SPierone  GPeeters  PKoralnik  IJ Progressive multifocal leukoencephalopathy in individuals with minimal or occult immunosuppression [published online ahead of print October 14, 2009]. J Neurol Neurosurg Psychiatry 2010;81 (3) 247- 254
PubMed Link to Article
Lindå  H von Heijne  AMajor  EO  et al.  Progressive multifocal leukoencephalopathy after natalizumab monotherapy. N Engl J Med 2009;361 (11) 1081- 1087
PubMed Link to Article
Wenning  WHaghikia  ALaubenberger  J  et al.  Treatment of progressive multifocal leukoencephalopathy associated with natalizumab. N Engl J Med 2009;361 (11) 1075- 1080
PubMed Link to Article
Chen  YBord  ETompkins  T  et al.  Asymptomatic reactivation of JC virus in patients treated with natalizumab. N Engl J Med 2009;361 (11) 1067- 1074
PubMed Link to Article
Kappos  LBates  DHartung  HP  et al.  Natalizumab treatment for multiple sclerosis: recommendations for patient selection and monitoring. Lancet Neurol 2007;6 (5) 431- 441
PubMed Link to Article
Gold  RJawad  AMiller  DH  et al.  Expert opinion: guidelines for the use of natalizumab in multiple sclerosis patients previously treated with immunomodulating therapies. J Neuroimmunol 2007;187 (1-2) 156- 158
PubMed Link to Article
Stüve  OMarra  CMCravens  PD  et al.  Potential risk of progressive multifocal leukoencephalopathy with natalizumab therapy: possible interventions. Arch Neurol 2007;64 (2) 169- 176
PubMed Link to Article
Brickelmaier  MLugovskoy  AKartikeyan  R  et al.  Identification and characterization of mefloquine efficacy against JC virus in vitro. Antimicrob Agents Chemother 2009;53 (5) 1840- 1849
PubMed Link to Article
Bossolasco  SCalori  GMoretti  F  et al.  Prognostic significance of JC virus DNA levels in cerebrospinal fluid of patients with HIV-associated progressive multifocal leukoencephalopathy. Clin Infect Dis 2005;40 (5) 738- 744
PubMed Link to Article
Khatri  BOMan  SGiovannoni  G  et al.  Effect of plasma exchange in accelerating natalizumab clearance and restoring leukocyte function. Neurology 2009;72 (5) 402- 409
PubMed Link to Article
Weinshenker  BGO'Brien  PCPetterson  TM  et al.  A randomized trial of plasma exchange in acute central nervous system inflammatory demyelinating disease. Ann Neurol 1999;46 (6) 878- 886
PubMed Link to Article
Elphick  GFQuerbes  WJordan  JA  et al.  The human polyomavirus, JCV, uses serotonin receptors to infect cells. Science 2004;306 (5700) 1380- 1383
PubMed Link to Article
Cettomai  D McArthur  JC Mirtazapine use in human immunodeficiency virus–infected patients with progressive multifocal leukoencephalopathy. Arch Neurol 2009;66 (2) 255- 258
PubMed Link to Article
Verma  SCikurel  KKoralnik  IJ  et al.  Mirtazapine in progressive mutlifocal leukencephalopathy associated with polycythemia vera [published online ahead of print July 13, 2007]. J Infect Dis 2007;196709- 777
PubMed Link to Article
Marzocchetti  ATompkins  TClifford  DB  et al.  Determinants of survival in progressive multifokal leukencephalopathy. Neurology 2009;73 (19) 1551- 1558
PubMed Link to Article
Manabe  YCCampbell  JDSydnor  EMoore  RD Immune reconstitution inflammatory syndrome: risk factors and treatment implications. J Acquir Immune Defic Syndr 2007;46 (4) 456- 462
PubMed Link to Article
Shelburne  SAMontes  MHamill  RJ Immune reconstitution inflammatory syndrome: more answers, more questions. J Antimicrob Chemother 2006;57 (2) 167- 170
PubMed Link to Article
Martinez  JVMazziotti  JVEfron  ED  et al.  Immune reconstitution inflammatory syndrome associated with PML in AIDS: a treatable disorder. Neurology 2006;67 (9) 1692- 1694
PubMed Link to Article
Tan  KRoda  ROstrow  L McArthur  JNath  A PML-IRIS in patients with HIV infection: clinical manifestations and treatment with steroids. Neurology 2009;72 (17) 1458- 1464
PubMed Link to Article
Clifford  DBDe Luca  ASimpson  DM  et al.  Natalizumab-associated progressive multifocal leukoencephalopathy in patients with multiple sclerosis: lessons from 28 cases. Lancet Neurol 2010;9 (4) 438- 446
PubMed Link to Article

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