Decreased blood–brain barrier P-glycoprotein function in the progression of Parkinson’s disease, PSP and MSA

Bartels, S A L; Willemsen, A T M; Kortekaas, R.; de Jong, B. M.; de Vries, R R; de Klerk, O.; van Oostrom, J C H; Portman, M A; Leenders, K L

doi:10.1007/s00702-008-0030-y

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Decreased blood–brain barrier P-glycoprotein function in the progression of Parkinson’s disease, PSP and MSA

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Author(s): A. L. Bartels ¹ ^, , A. T. M. Willemsen ² , R. Kortekaas ³ , B. M. de Jong ¹ , R. de Vries ¹ , O. de Klerk ⁴ , J. C. H. van Oostrom ¹ , A. Portman ¹ , K. L. Leenders ¹

Publication date (Electronic): 12 February 2008

Journal: Journal of Neural Transmission

Publisher: Springer Vienna

Keywords: Parkinson, P-glycoprotein, PSP, MSA, PET, Verapamil, Blood–brain barrier, Neurodegeneration, Alzheimer

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Abstract

Decreased blood–brain barrier (BBB) efflux function of the P-glycoprotein (P-gp) transport system could facilitate the accumulation of toxic compounds in the brain, increasing the risk of neurodegenerative pathology such as Parkinson’s disease (PD). This study investigated in vivo BBB P-gp function in patients with parkinsonian neurodegenerative syndromes, using [ ¹¹C]-verapamil PET in PD, PSP and MSA patients. Regional differences in distribution volume were studied using SPM with higher uptake interpreted as reduced P-gp function. Advanced PD patients and PSP patients had increased [ ¹¹C]-verapamil uptake in frontal white matter regions compared to controls; while de novo PD patients showed lower uptake in midbrain and frontal regions. PSP and MSA patients had increased uptake in the basal ganglia. Decreased BBB P-gp function seems a late event in neurodegenerative disorders, and could enhance continuous neurodegeneration. Lower [ ¹¹C]-verapamil uptake in midbrain and frontal regions of de novo PD patients could indicate a regional up-regulation of P-gp function.

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Most cited references 45

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Diagnostic criteria for Parkinson disease.

D Gelb, E. Oliver, S. Gilman (1999)

The clinical diagnosis of Parkinson disease (PD) is based on the identification of some combination of the cardinal motor signs of bradykinesia, rigidity, tremor, and postural instability, but few attempts have been made to develop explicit diagnostic criteria. We propose a clinical diagnostic classification based on a comprehensive review of the literature regarding the sensitivity and specificity of the characteristic clinical features of PD. Three levels of diagnostic confidence are differentiated: Definite, Probable, and Possible. The diagnoses of Possible and Probable PD are based on clinical criteria alone. Neuropathologic confirmation is required for the diagnosis of Definite PD in patients with the clinical diagnosis of Possible or Probable PD. Criteria for histopathologic confirmation of PD are also presented.

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Blood-brain barrier dysfunction in parkinsonian midbrain in vivo.

Rudie Kortekaas, Klaus Leenders, Joost van Oostrom … (2005)

Parkinson's disease (PD) is associated with a loss of neurons from the midbrain. The cause of PD is unknown, but it is established that certain neurotoxins can cause similar syndromes. The brain is normally protected from these noxious blood-borne chemicals by the blood-brain barrier which includes specialized proteins on the inside of blood vessels in the brain. These act as molecular efflux pumps and P-glycoprotein (P-gp) is an abundant representative. Vulnerability to PD appears codetermined by the genotype for the P-gp gene. We hypothesized that PD patients have reduced P-gp function in the blood-brain barrier. We used positron emission tomography to measure brain uptake of [(11)C]-verapamil, which is normally extruded from the brain by P-gp. Here, we show significantly elevated uptake of [(11)C]-verapamil (18%) in the midbrain of PD patients relative to controls. This is the first evidence supporting a dysfunctional blood-brain barrier as a causative mechanism in PD.

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Comparing functional (PET) images: the assessment of significant change.

K J Friston, C D Frith, P F Liddle … (1991)

Statistical parametric maps (SPMs) are potentially powerful ways of localizing differences in regional cerebral activity. This potential is limited by uncertainties in assessing the significance of these maps. In this report, we describe an approach that may partially resolve this issue. A distinction is made between using SPMs as images of change significance and using them to identify foci of significant change. In the first case, the SPM can be reported nonselectively as a single mathematical object with its omnibus significance. Alternatively, the SPM constitutes a large number of repeated measures over the brain. To reject the null hypothesis, that no change has occurred at a specific location, a threshold adjustment must be made that accounts for the large number of comparisons made. This adjustment is shown to depend on the SPM's smoothness. Smoothness can be determined empirically and be used to calculate a threshold required to identify significant foci. The approach models the SPM as a stationary stochastic process. The theory and applications are illustrated using uniform phantom images and data from a verbal fluency activation study of four normal subjects.

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Author and article information

Contributors

: +31-50-3612433 , +31-50-3611707 , a.l.bartels@neuro.umcg.nl

Journal

Journal ID (nlm-ta): J Neural Transm

Title: Journal of Neural Transmission

Publisher: Springer Vienna (Vienna )

ISSN (Print): 0300-9564

ISSN (Electronic): 1435-1463

Publication date (Electronic): 12 February 2008

Publication date (Print): July 2008

Volume: 115

Issue: 7

Pages: 1001-1009

Affiliations

[1 ]Department of Neurology, University Medical Center Groningen, University of Groningen, Hanzeplein 1, 9700 RB Groningen, The Netherlands

[2 ]Department of Nuclear Medicine and Molecular Imaging, University of Groningen, Groningen, The Netherlands

[3 ]Department of Anatomy, University of Groningen, Groningen, The Netherlands

[4 ]Department of Psychiatry, University of Groningen, Groningen, The Netherlands

Article

Publisher ID: 30

DOI: 10.1007/s00702-008-0030-y

PMC ID: 2468317

PubMed ID: 18265929

SO-VID: e58d223b-7e2d-4938-bed0-0ad153210238

History

Date received : 22 November 2007

Date accepted : 25 January 2008

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ScienceOpen disciplines: Neurosciences

Keywords: neurodegeneration,p-glycoprotein,alzheimer,verapamil,pet,psp,parkinson,msa,blood–brain barrier

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ScienceOpen disciplines: Neurosciences

Keywords: neurodegeneration, p-glycoprotein, alzheimer, verapamil, pet, psp, parkinson, msa, blood–brain barrier

Decreased blood–brain barrier P-glycoprotein function in the progression of Parkinson’s disease, PSP and MSA

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Nanoparticles to cross the blood-brain barrier (BBB)

Most cited references 45

Diagnostic criteria for Parkinson disease.

Blood-brain barrier dysfunction in parkinsonian midbrain in vivo.

Comparing functional (PET) images: the assessment of significant change.

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