Pal, P. K., Z. K. Wszolek, et al. (2001). "Positron emission
tomography of dopamine pathways in familial Parkinsonian syndromes." 8(1):
51-56.
Positron emission tomography (PET) scan is considered to be the most useful tool
with which to assess the integrity of nigrostriatal function in the living
brain. Recently, different genetic defects have been associated with a variety
of familial parkinsonian syndromes, the clinical phenotypes of which have
varying degrees of similarities to idiopathic parkinsonism (IP), (sporadic
Parkinson's disease). This review summarizes: (1) the PET scan findings (fluorodopa
uptake and raclopride binding) in both familial parkinsonian syndromes and IP;
and (2) the similarities and differences of the clinical and PET features
between familial parkinsonian syndromes and IP. This analysis demonstrates that
more similarities than differences exist in PET scan findings in the different
familial parkinsonian syndromes with the exception of pallido-ponto-nigral
degeneration (PPND), that is perhaps best considered as multisystem
degeneration. As a result of this analysis, we believe that while different
genetic defects may underlie different mechanisms of nigrostriatal degeneration,
the final pattern of nigrostriatal dysfunction is essentially similar to that of
IP. 'Parkinson's disease', therefore, may not represent a single disease entity,
but rather the final manifestation of different pathogenetic mechanisms-mediated
by genetic or environmental factors, or an interaction of genetic and
environmental factors.
Panet, H., A. Barzilai, et al. (2001). "Activation of nuclear transcription
factor kappa B (NF-kappaB) is essential for dopamine-induced apoptosis in PC12
cells." J Neurochem 77(2): 391-8.
The etiology of Parkinson's disease is still unknown, though current
investigations support the notion of the pivotal involvement of oxidative stress
in the process of neurodegeneration in the substantia nigra (SN). In the present
study, we investigated the molecular mechanisms underlying cellular response to
a challenge by dopamine, one of the local oxidative stressors in the SN. Based
on studies showing that nuclear factor kappa B (NF-kappaB) is activated by
oxidative stress, we studied the involvement of NF-kappaB in the toxicity of
PC12 cells following dopamine exposure. We found that dopamine (0.1-0.5 m M)
treatment increased the phosphorylation of the IkappaB protein, the inhibitory
subunit of NF-kappaB in the cytoplasm. Immunoblot analysis demonstrated the
presence of NF-kappaB-p65 protein in the nuclear fraction and its disappearance
from the cytoplasmic fraction after 2 h of dopamine exposure. Dopamine-induced
NF-kappaB activation was also evidenced by electromobility shift assay using
radioactive labeled NF-kappaB consensus DNA sequence. Cell-permeable NF-kappaB
inhibitor SN-50 rescued the cells from dopamine-induced apoptosis and showed the
importance of NF-kappaB activation to the induction of apoptosis. Furthermore,
flow cytometry assay demonstrated a higher level of translocated NF-kappaB-p65
in the apoptotic nuclei than in the unaffected nuclei. In conclusion, our
findings suggest that NF-kappaB activation is essential to dopamine-induced
apoptosis in PC12 cells and it may be involved in nigral neurodegeneration in
patients with Parkinson's disease.
Papapetropoulos, S., C. Paschalis, et al. (2001). "Clinical phenotype in
patients with alpha-synuclein Parkinson's disease living in Greece in comparison
with patients with sporadic Parkinson's disease." J Neurol Neurosurg
Psychiatry 70(5): 662-5.
OBJECTIVE: An Ala53Thr mutation of the alpha-synuclein gene has been recently
identified as a rare cause of autosomal Parkinson's disease (PD). The clinical
characteristics of 15 patients with PD living in Greece with the Ala53Thr alpha-synuclein
mutation (alpha-synPD) were compared with patients with sporadic Parkinson's
disease (sPD). METHODS: An investigator, blind to the results of the genetic
analysis, examined 15 patients with alpha-synPD and 52 consecutive patients with
sPD. Demographic data, age at onset of the illness, modality of presentation,
and duration of PD were collected. The unified Parkinson's disease rating scale,
the Hoehn and Yahr scale, and the Schwab-England scale were completed. The
patients with alpha-synPD were matched for duration of disease with 32 of the 52
patients with sporadic PD (MsPD group). RESULTS: Patients with the alpha-synuclein
mutation were significantly younger (mean 7.6 years), showed the first sign of
the disease significantly earlier in life (mean 10.8 years), and had
significantly longer duration of the disease compared with patients with sPD.
Tremor at onset of the disease was present in only one (6.7%) of the patients
with alpha-synPD, whereas it was present in 32 (61.5%) of the patients with sPD
(p=0.0006). During the course of the disease one patient in the alpha-synPD
group went on to develop tremor compared with six patients in the sPD group.
Rigidity, bradykinesia, postural instability, orthostatic hypotension,
intellectual impairment, depression, complications of therapy, and clinical
severity of the disease at the time of examination did not differ significantly
between patients with alpha-synPD and those with sPD, or between patients with
alpha-synPD and the MsPD group. CONCLUSION: The younger age at onset of the
illness, the much lower prevalence of tremor, and the longer duration of the
disease characterise the clinical phenotype in this sample of patients with
alpha-synPD. The other symptoms and signs of the illness did not seem to
differentiate the patients with alpha-synPD from those with sPD.
Paris, I., A. Dagnino-Subiabre, et al. (2001). "Copper neurotoxicity is
dependent on dopamine-mediated copper uptake and one-electron reduction of
aminochrome in a rat substantia nigra neuronal cell line." J Neurochem
77(2): 519-29.
The mechanism of copper (Cu) neurotoxicity was studied in the RCSN-3 neuronal
dopaminergic cell line, derived from substantia nigra of an adult rat. The
formation of a Cu-dopamine complex was accompanied by oxidation of dopamine to
aminochrome. We found that the Cu-dopamine complex mediates the uptake of
(64)CuSO(4) into the Raul Caviedes substantia nigra-clone 3 (RCSN3) cells, and
it is inhibited by the addition of excess dopamine (2 m M) (63%, p < 0.001) and
nomifensine (2 microM) (77%, p < 0.001). Copper sulfate (1 m M) alone was not
toxic to RCSN-3 cells, but was when combined with dopamine or with dicoumarol
(95% toxicity; p < 0.001) which inhibits DPNH and TPNH (DT)-diaphorase. Electron
spin resonance (ESR) spectrum of the 5,5-dimethylpyrroline-N-oxide (DMPO) spin
trap adducts showed the presence of a C-centered radical when incubating cells
with dopamine, CuSO(4) and dicoumarol. A decrease in the expression of
CuZn-superoxide dismutase and glutathione peroxidase mRNA was observed when
RCSN-3 cells were treated with CuSO(4), dopamine, or CuSO(4) and dopamine.
However, the mRNA expression of glutathione peroxidase remained at control
levels when the cells were treated with CuSO(4), dopamine and dicoumarol. The
regulation of catalase was different since all the treatments with CuSO(4)
increased the expression of catalase mRNA. Our results suggest that copper
neurotoxicity is dependent on: (i) the formation of Cu-dopamine complexes with
concomitant dopamine oxidation to aminochrome; (ii) dopamine-dependent Cu
uptake; and (iii) one-electron reduction of aminochrome.
Park, K. W., M. A. Eglitis, et al. (2001). "Protection of nigral neurons by GDNF-engineered
marrow cell transplantation." Neurosci Res 40(4): 315-23.
Marrow stromal cells, which have many characteristics of stem cells, populate
various non-hematopoietic tissues including the brain. In the present study, the
cDNA for the dopaminergic neurotrophic factor Glial Cell Line-Derived
Neurotrophic Factor (GDNF) was delivered using marrow cells in the mouse
1-Methyl-4-phenyl-1,2,3,6-tetrahydro-pyridine (MPTP) model of Parkinson's
disease. Following cross-sex intravenous bone marrow transplantation with male
donor cells that had been transduced with GDNF (GDNF-BMT) or with
non-manipulated marrow (Control-BMT), female recipient mice were subjected to
systemic MPTP injections. Eight weeks after neurotoxin exposure, more tyrosine
hydroxylase immunoreactive nigral neurons and striatal terminal density were
observed in the GDNF-BMT mice compared with the Control-BMT group. In addition,
following the expected initial behavioral hyperactivity in both groups, a
significant difference in motor activity was detected between the two groups.
GDNF immunoreactive male donor marrow derived cells were detected in the brains
of GDNF-BMT mice but not in controls. These data indicate that marrow derived
cells that seed the brain can express biologically active gene products and,
therefore, can function as effective vehicles for therapeutic gene transfer to
the brain.
Pastor, P., E. Pastor, et al. (2001). "Familial atypical progressive
supranuclear palsy associated with homozigosity for the delN296 mutation in the
tau gene." Ann Neurol 49(2): 263-7.
Heterozygous missense and splice-site mutations in the tau gene have been
previously identified in familial frontotemporal dementia with autosomal
dominant inheritance. Here we report a Spanish kindred in which two brothers
born from a third-degree consanguineous marriage were both affected with
atypical progressive supranuclear palsy. A homozygous deletion at codon 296
(delN296) was identified in one of the affected siblings. Among the heterozygous
carriers, two members with probable Parkinson's disease were identified, but
none of heterozygotes developed atypical parkinsonism. The delN296 mutation lies
in the sequence corresponding to the second tubulin-binding repeat of tau
protein and affects one asparagine residue absolutely conserved in other
species. This finding indicates that homozygous mutations in the tau gene may
also cause hereditary tauopathies.
Paterson, I. C., J. B. Matthews, et al. (2001). "Decreased expression of
TGF-beta cell surface receptors during progression of human oral squamous cell
carcinoma." J Pathol 193(4): 458-67.
This study examined the immunocytochemical expression of the transforming growth
factor-beta (TGF-beta) isoforms TGF-beta1, TGF-beta2, and TGF-beta3, together
with the TGF-beta cell surface receptors TbetaR-I and TbetaR-II, in
patient-matched tissue pairs of normal human oral epithelium, primary squamous
cell carcinomas, and metastatic lymph node tumour deposits. There were no
significant differences in the intensity of TGF-beta isoform specific staining
between the normal oral epithelium, the primary tumours, and the lymph node
metastases. By contrast, there was significantly less TbetaR-II in the
metastases than in the primary tumour and between the primary tumour and the
normal oral epithelium. Similar trends were evident with TbetaR-I, but not at a
statistically significant level. This study also examined the structure of
TbetaR-I and TbetaR-II in normal human oral keratinocytes in vitro and in 14
human oral carcinoma cell lines with known responses to TGF-beta1. No structural
abnormalities of TbetaR-II were present in the normal keratinocytes or in 13 of
14 malignant cell lines; in one line, there were both normal and mutant forms of
TbetaR-II, the latter being in the form of a frameshift mutation with the
insertion of a single adenine base (bases 709-718, codons 125-128), predicting a
truncated receptor having no kinase domain. No defects were present in TbetaR-I.
The structures of TbetaR-I and TbetaR-II did not correlate with growth
inhibition by TGF-beta1. The data suggest that decreased expression of TGF-beta
receptors, rather than structural defects of these genes, may be important in
oral epithelial tumour progression. In order to examine the functional
significance of a specific decrease in TbetaR-II expression, a dominant-negative
TbetaR-II construct (dnTbetaR-II) was transfected into a human oral carcinoma
cell line with a normal TGF-beta receptor profile and known to be markedly
inhibited by TGF-beta1. In those clones that overexpressed the dnTbetaR-II,
growth inhibition and Smad binding activity were decreased, whilst the
regulation of Fra-1 and collagenase-1 remained unchanged following treatment
with TGF-beta1. The results demonstrate that a decrease in TbetaR-II relative to
TbetaR-I leads to selective gene regulation with loss of growth inhibition but
continued transcription of AP-1-dependent genes that are involved in the
regulation of the extracellular matrix. Copyright 2001 John Wiley & Sons, Ltd.
Payami, H., N. Lee, et al. (2001). "Parkinson's disease, CYP2D6 polymorphism,
and age." Neurology 56(10): 1363-70.
OBJECTIVE: PD may be caused by genetic susceptibility to neurotoxins. CYP2D6 is
a candidate gene for PD because it regulates drug and toxin metabolism, but
association studies have been inconsistent. The aim of this study was to test if
the CYP2D6*4 allele (poor metabolizer phenotype) is associated with earlier age
at onset. METHODS: Five hundred seventy-six patients with PD and 247 subjects
without PD were studied using standard diagnostic, genotyping, and statistical
techniques. RESULTS: Surprisingly, mean onset age was significantly later in
*4-positive patients. Frequency of *4 was significantly higher in late-onset PD
than early-onset PD. When early- and late-onset PD were analyzed separately, *4
had no effect on onset age; hence, the association with delayed onset was likely
an artifact of an elevated *4 frequency in late-onset PD. Contrary to a common
assumption that CYP2D6 frequencies do not change with age, *4 frequency rose
significantly with advancing age, both in patients with PD (from 0.16 at mean
age of 56.5 years to 0.21 at mean age of 72) and subjects without PD (from 0.09
at mean age of 45.5 years to 0.21 at mean age of 72). *4 Frequencies in patients
with early- and late-onset PD, although different from each other, were in
agreement with similarly aged subjects without PD, suggesting the elevated *4
frequency in late-onset PD was likely an age effect, unrelated to PD.
CONCLUSION: The CYP2D6*4 allele is not associated with earlier PD onset. *4 May
be associated with survival. Inconsistent results from allelic association
studies may have been due to an unrecognized age effect.
Periquet, M., C. Lucking, et al. (2001). "Origin of the mutations in the parkin
gene in Europe: exon rearrangements are independent recurrent events, whereas
point mutations may result from Founder effects." Am J Hum Genet 68(3):
617-26.
A wide variety of mutations in the parkin gene, including exon deletions and
duplications, as well as point mutations, result in autosomal recessive
early-onset parkinsonism. Interestingly, several of these anomalies were found
repeatedly in unrelated patients and may therefore result from recurrent, de
novo mutational events or from founder effects. In the present study, haplotype
analysis, using 10 microsatellite markers covering a 4.7-cM region known to
contain the parkin gene, was performed in 48 families, mostly from European
countries, with early-onset autosomal recessive parkinsonism. The patients
carried 14 distinct mutations in the parkin gene, and each mutation was detected
in more than one family. Our results support the hypothesis that exon
rearrangements occurred independently, whereas some point mutations, found in
families from different geographic origins, may have been transmitted by a
common founder.
Pirker, W., J. Tedroff, et al. (2001). "Coadministration of (-)-OSU6162 with
l-DOPA normalizes preproenkephalin mRNA expression in the sensorimotor striatum
of primates with unilateral 6-OHDA lesions." Exp Neurol 169(1):
122-34.
The substituted phenylpiperidine (-)-OSU6162 is a novel modulator of the
dopaminergic systems with low affinity for dopamine D(2) receptors and potent
normalizing effects on l-DOPA-induced dyskinesias. We studied the effects of
coadministration of (-)-OSU6162 with l-DOPA on the regulation of striatal
preproenkephalin (PPE) and prodynorphin (PDyn) mRNA expression in the primate
brain by in situ hybridization histochemistry. Common marmoset monkeys
sustaining unilateral 6-hydroxydopamine lesions of the nigrostriatal pathway
received l-DOPA/carbidopa, l-DOPA/carbidopa plus (-)-OSU6162, or vehicle over 14
days. In vehicle-treated animals, PPE mRNA levels were markedly increased in the
sensorimotor territory of the lesioned striatum. By contrast, a rather uniform
lesion-induced reduction of PDyn mRNA levels was found in the vehicle group.
Subchronic l-DOPA treatment induced a further increase in PPE mRNA expression in
a number of sensorimotor and associative subregions of the denervated striatum.
Coadministration of (-)-OSU6162 with l-DOPA partially reversed the lesion- and
l-DOPA-induced elevation of PPE expression and, by affecting PPE mRNA expression
differentially on the intact and lesioned striatum, markedly reduced the
side-to-side difference in PPE mRNA expression. The effects on PPE mRNA
expression were apparent throughout the rostrocaudal extent of the putamen and
the dorsal portions of the caudate nucleus. l-DOPA treatment resulted in an
enhancement in PDyn mRNA expression in all functional compartments of the
striatum. Coadministration of (-)-OSU6162 had no apparent influence on these
l-DOPA-induced changes in PDyn mRNA expression. The present results suggest that
(-)-OSU6162 acts primarily by modifying striatal output via the indirect
pathway. Copyright 2001 Academic Press.