Wade, T. V. and J. S. Schneider (2001). "Expression of striatal
preprotachykinin mRNA in symptomatic and asymptomatic
1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-exposed monkeys is related to
parkinsonian motor signs." J Neurosci 21(13): 4901-7.
Striatal preprotachykinin (PPT) gene expression and [(3)H]mazindol binding were
examined in monkeys exposed to 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP).
Some animals (n = 5) became moderately to severely parkinsonian after receiving
large doses of MPTP over 9-30 d and remained symptomatic for a relatively short
time (3 weeks to 3 months; acutely symptomatic group). A second group of animals
(n = 5) received low doses of MPTP (1.5-12 months), developed cognitive
impairments but displayed no gross motor deficits (asymptomatic group), and were
killed 3-12 months after their final dose of MPTP. Other animals became
moderately to severely parkinsonian after receiving escalating doses of MPTP (>6
months; n = 4) or high doses of MPTP (<1 month; n = 1) and remained symptomatic
for 2.5-5.75 years (chronically symptomatic group). All MPTP-treated animals had
extensive losses of [(3)H]mazindol binding in dorsal striatal sensorimotor
regions with asymptomatic animals generally having a lesser degree of damage.
However, PPT mRNA levels differed sharply among treatment groups. Symptomatic
animals (acutely and chronically parkinsonian) had significantly decreased PPT
mRNA levels in most striatal regions. In asymptomatic animals, PPT mRNA
expression was not significantly different from that measured in control
animals, despite decreases in [(3)H]mazindol binding in some striatal regions of
similar magnitude to those observed in symptomatic animals. These observations
suggest that PPT gene expression may be directly related to expression of
parkinsonian motor symptomatology regardless of duration of MPTP exposure,
duration of the parkinsonism, or extent of dopamine denervation. These results
imply that the direct striatal output circuit may have a greater contribution to
expression of parkinsonian symptomatology than proposed previously.
Wang, L., S. Andersson, et al. (2001). "Morphological abnormalities in the
brains of estrogen receptor beta knockout mice." Proc Natl Acad Sci U S A
98(5): 2792-6.
Estrogen receptor beta (ERbeta) is expressed at high levels in both neurons and
glial cells of the central nervous system. The development of ERbeta knockout (BERKO)
mice has provided a model to study the function of this nuclear receptor in the
brain. We have found that the brains of BERKO mice show several morphological
abnormalities. There is a regional neuronal hypocellularity in the brain, with a
severe neuronal deficit in the somatosensory cortex, especially layers II, III,
IV, and V, and a remarkable proliferation of astroglial cells in the limbic
system but not in the cortex. These abnormalities are evident as early as 2 mo
of age in BERKO mice. As BERKO mice age, the neuronal deficit becomes more
pronounced, and, by 2 yr of age, there is degeneration of neuronal cell bodies
throughout the brain. This is particularly evident in the substantia nigra. We
conclude that ERbeta is necessary for neuronal survival and speculate that this
gene could have an important influence on the development of degenerative
diseases of the central nervous system, such as Alzheimer's disease and
Parkinson's disease, as well as those resulting from trauma and stroke in the
brain.
Wang, J., Z. L. Liu, et al. (2001). "Dopamine D5 receptor gene polymorphism and
the risk of levodopa-induced motor fluctuations in patients with Parkinson's
disease." Neurosci Lett 308(1): 21-4.
Motor fluctuations are the most common complication of levodopa therapy for
Parkinson's disease (PD). Genetic factors could play a role in determining the
occurrence of motor fluctuations. To investigate whether dopamine receptor D5
(DRD5) T978C polymorphism is associated with the risk of developing motor
fluctuations in PD, we studied this polymorphism in a case-control study of 120
subjects with sporadic PD and 110 control subjects. We found that the overall
allelic and genotypic frequencies did not differ significantly between patients
with PD and control subjects (all P>0.7), and between motor fluctuators (n=50)
and non-motor fluctuators (n=50) (all P>0.8). It suggests that DRD5 T978C
polymorphism is not associated with the susceptibility to PD, nor with the risk
of developing motor fluctuations in PD. Therefore, other polymorphisms that
alter the expression of the dopamine receptors should be further studied.
Wang, Y. C., H. C. Liu, et al. (2001). "Genetic association analysis of
alpha-1-antichymotrypsin polymorphism in Parkinson's disease." Eur Neurol
45(4): 254-6.
alpha(1)-Antichymotrypsin (ACT) gene has been suggested as a susceptibility
factor for Parkinson's disease (PD) and might be related to the onset of PD. We
replicated these findings in a Chinese population. The results demonstrated that
the ACT genotypic and allelic distributions showed no significant differences
between the PD patient and the control groups. The age at onset was younger in
the heterozygotes than in the homozygotes (p = 0.042). We suggest that the ACT
polymorphism might play some role in the pathogenesis of PD, especially in the
onset. Copyright 2001 S. Karger AG, Basel
Wang, J., Z. L. Liu, et al. (2001). "Association study of dopamine D2, D3
receptor gene polymorphisms with motor fluctuations in PD." Neurology
56(12): 1757-9.
The authors investigated the association between dopamine receptor D2, D3 gene
polymorphisms, and the risk of developing motor fluctuations in PD. DRD3 BalI
and MspI polymorphisms were not associated with risk of developing motor
fluctuations. However, the genotypic distribution of DRD2 TaqIA polymorphism was
significantly different in motor fluctuators and nonmotor fluctuators. These
findings suggest that DRD2 TaqIA polymorphism may be associated with an
increased risk for developing motor fluctuations in PD.
Weingarten, P. and Q. Y. Zhou (2001). "Protection of intracellular dopamine
cytotoxicity by dopamine disposition and metabolism factors." J Neurochem
77(3): 776-85.
Dopamine has been hypothesized as a contributing factor for the selective
degeneration of dopaminergic neurons in Parkinson's disease. However, the
cytotoxic mechanisms of dopamine and its metabolites remain poorly understood.
Using a stable aromatic amino acid decarboxylase (AADC) expressing a fibroblast
cell line, we previously demonstrated a novel, non-oxidative cytotoxicity of
intracellular dopamine. In this study, we further investigate the roles of
dopamine metabolism and disposition proteins against intracellular dopamine
cytotoxicity by co-expressing these factors in AADC-expressing cells. Our
results indicate that overexpression of the vesicular monoamine transporter and
monoamine oxidase A-induced protection against intracellular dopamine toxicity,
and conversely that pharmacological inhibition of these pathways potentiated
L-DOPA toxicity in catecholaminergic PC12 cells. Macrophage migration inhibitory
factor and glutathione S-transferase (GST), factors that have recently been
shown to be involved in dopamine metabolism, also exhibited a strong protective
role against intracellular dopamine cytotoxicity. Our results support a
potential role for non-oxidative cytoplasmic dopamine toxicity, and imply that
disruption in dopamine disposition and/or metabolism could underlie the
progressive degeneration of dopaminergic neurons in Parkinson's disease.
Weissig, V. and V. P. Torchilin (2001). "Towards mitochondrial gene therapy:
DQAsomes as a strategy." J Drug Target 9(1): 1-13.
Mitochondrial dysfunction is a cause, or major contributing factor in the
development, of degenerative diseases, aging, cancer, many cases of Alzheimer's
and Parkinson's disease and Type II diabetes (D. C. Wallace, Science 283,
1482-1488, 1999). Despite major advances in understanding mtDNA defects at the
genetic and biochemical level, there is no satisfactory treatment for the vast
majority of patients available. Objective limitations of conventional
biochemical treatment for patients with defects of mtDNA warrant the exploration
of gene therapeutic approaches. However, mitochondrial gene therapy has been
elusive, due to the lack of any mitochondria-specific transfection vector. We
review here the current state of the development of mitochondrial DNA delivery
systems. In particular, we are summarizing our own efforts in exploring the
mitochondriotropic properties of dequalinium, a cationic bolaamphiphile with
delocalized charge centers, for the design of a vector suited for the transport
of DNA to mitochondria in living cells.
West, A., M. Farrer, et al. (2001). "Identification and characterization of the
human parkin gene promoter." J Neurochem 78(5): 1146-52.
Compound mutations and homozygous loss of function of the parkin gene causes
juvenile and early onset, autosomal recessive parkinsonism. Pathologically, the
disease is associated with loss of dopaminergic neurons in the substantia nigra
pars compacta and locus ceruleus, usually without Lewy body pathology.
Hemizygous families have been described that may harbor mutations outside of the
open reading frame. The parkin gene promoter has yet to be characterized, and
therein, mutations in hemizygous families may plausibly be identified. To
identify the promoter of the parkin gene, the transcription start site was
defined by a combination of primer extension and 5' RACE. Five kilobases of DNA
5' to the parkin start codon were directly sequenced from a BAC containing
parkin exon 1 and evaluated for promoter motifs. The parkin promoter lacks TATA
or CAAT boxes and appears to share homology to the alpha-synuclein promoter.
Deletion constructs demonstrated core promoter activity and tissue specific
enhancing regions in HEK-293T and SH-SY5Y cells.
Woo, S. I., J. W. Kim, et al. (2001). "CYP2D6*4 polymorphism is not associated
with Parkinson's disease and has no protective role against Alzheimer's disease
in the Korean population." Psychiatry Clin Neurosci 55(4): 373-7.
CYP2D6*4 polymorphism is reported to be associated with Parkinson's disease (PD)
and to have protective role against Alzheimer's disease (AD). Such findings are
not extensively studied in the Oriental population, especially Koreans. The
effects of CYP2D6*4 polymorphism on AD and PD were investigated by polymerase
chain reaction-restriction fragment length polymorphism in Korean subjects.
Heterozygous mutant allele was found in four of 93 patients with PD, 0 of 32
patients with AD and one of 121 control subjects (59 stroke, 59 normal controls
and four other psychiatric disorders), but no homozygous mutant allele was
found. There were no statistically significant differences between the AD group
and controls, and between the PD group and controls. In conclusion, we suggest
that CYP2D6*4 polymorphism does not confer susceptibility to PD in the Korean
population. Also, due to such a rare occurrence of the CYP2D6*4 polymorphism, we
can not confirm the protective role of the polymorphism against AD in the Korean
population.
Woodward, G. (2001). "Autism and Parkinson's disease." Med Hypotheses
56(2): 246-9.
The pathogenesis of Parkinson's disease, a neurodegenerative disorder, is
multifaceted, having a variety of genetic and environmental factors. There is
considerable evidence to support the role of toxins, particularly pesticides and
herbicides, in at least some of those affected (presumably, mostly the
genetically vulnerable). The pathogenesis of autism is no less complex, but
little is known about the potential role of toxins for autism, a
neurodevelopmental disorder. The incidence of autism appears to be rising, and
early exposure to synthetic chemicals is one suspect for this rise. Impaired
detoxification of certain chemicals may be common to autism and Parkinson's
disease. Further study of environmental influences for either disorder may lead
to important insights regarding causation for both, and perhaps for other
neurodegenerative and neurodevelopmental disorders as well.
Wszolek, Z. K., R. J. Uitti, et al. (2001). "Familial Parkinson's disease and
related conditions. Clinical genetics." Adv Neurol 86: 33-43.
Wu, R. M., C. W. Cheng, et al. (2001). "The COMT L allele modifies the
association between MAOB polymorphism and PD in Taiwanese." Neurology
56(3): 375-82.
OBJECTIVE: Reports suggest that catechol-O-methyltransferase (COMT(L/L))
(Val(158)/Met) and monoamine oxidase B (MAOB) intron 13 genotype polymorphism is
associated with PD. To understand the ethnicity-specific effects of genetic
polymorphism, we performed a case-control study of the association between PD
susceptibility and polymorphism of MAOB and COMT, both separately and in
combination, in Taiwanese. METHODS: Two hundred twenty-four patients with PD and
197 controls, matched for age, sex, and birthplace, were recruited. MAOB and
COMT polymorphism genotyping was performed by using PCR-based restriction
fragment length polymorphism (RFLP) analyses. chi(2), OR, and Fisher's exact
tests were used to compare differences in allelic frequencies and genotypes.
RESULTS: The MAOB G genotype (G in men and G:/G in women) was associated with a
2.07-fold increased relative risk of PD. COMT polymorphism, considered alone,
showed no correlation with PD risk; however, a significant synergistic
enhancement was found in PD patients harboring both the COMT(L) and MAOB G
genotypes. CONCLUSIONS: These results suggest that, in Taiwanese, PD risk is
associated with MAOB G intron 13 polymorphism, and this association is augmented
in the presence of the COMT(L) genotype, indicating an interaction of these two
dopamine-metabolizing enzymes in the pathogenesis of sporadic PD. However, the
relatively low frequencies of these combined genotypes in our study necessitates
confirmation with a larger sample size.