Hiroto Matsumine

Mutations in the parkin gene cause autosomal recessive juvenile parkinsonism

Parkinsons disease is a common neurodegenerative disease with complex clinical features. Autosomal recessive juvenile parkinsonism (AR-JP), maps to the long arm of chromosome 6 (6q25.2-q27) and is linked strongly to the markers D6S305 and D6S253 (ref. 4); the former is deleted in one Japanese AR-JP patient. By positional cloning within this microdeletion, we have now isolated a complementary DNA clone of 2,960 base pairs with a 1,395-base-pair open reading frame, encoding a protein of 465 amino acids with moderate similarity to ubiquitin at the amino terminus and a RING-finger motif at the carboxy terminus. The gene spans more than 500 kilobases and has 12 exons, five of which (exons 3–7) are deleted in the patient. Four other AR-JP patients from three unrelated families have a deletion affecting exon 4 alone. A 4.5-kilobase transcript that is expressed in many human tissues but is abundant in the brain, including the substantia nigra, is shorter in brain tissue from one of the groups of exon-4-deleted patients. Mutations in the newly identified gene appear to be responsible for the pathogenesis of AR-JP, and we have therefore named the protein product ‘Parkin’.

Pathologic and biochemical studies of juvenile parkinsonism linked to chromosome 6q

We report the results of pathologic and biochemical studies in a patient with 6q-linked autosomal recessive juvenile parkinsonism (AR-JP). Neuronal loss and gliosis were restricted to the substantia nigra and the locus ceruleus. No Lewy bodies were found, but neurofibrillary tangles and argyrophilic astrocytes were seen in the cerebral cortex and brainstem nuclei. The later findings, which have not been reported previously in AR-JP, suggest the pathologic heterogeneity of 6q-linked AR-JP.

Immunohistochemical and subcellular localization of parkin protein: Absence of protein in autosomal recessive juvenile parkinsonism patients

Autosomal recessive juvenile parkinsonism (AR‐JP) is a distinct clinical entity characterized by a selective degeneration of nigral neurons. Recently, the parkin gene responsible for AR‐JP has been identified. Now, we report the subcellular localization of Parkin protein in patients with AR‐JP or Parkinsons disease (PD) and in controls by immunoblotting and immunohistochemistry using antibodies raised against the Parkin molecule. Parkin protein was absent in all regions of the brains of patients with AR‐JP. Parkin protein was not decreased in the brains of sporadic PD patients. Immunoreactivity was detected in a few Lewy bodies. Parkin protein was located in both the Golgi complex and cytosol. Ann Neurol 1999;45:668–672

Polymorphism in the parkin gene in sporadic Parkinson's disease.

We report polymorphism of the parkin gene in 160 sporadic Parkinsons disease (PD) patients and controls. Three polymorphisms were found: a G‐to‐A transition in exon 4 (S/N167), a C‐to‐T transition in exon 10 (R/W366), and a G‐to‐C transition in exon 10 (V/L380). Genotype distributions and allele frequencies of S/N167 and V/L380 did not differ significantly between the two groups. The R/W366 allele frequency was significantly lower in PD patients (1.2 vs 4.4%). The level of protection from PD provided by this allele was 3.60 (95% CI; range, 0.45–6.50), suggesting that it may be a protective factor against PD. Ann Neurol 1999;45:655–658

Mn SOD activity and protein in a patient with chromosome 6-linked autosomal recessive parkinsonism in comparison with Parkinson's disease and control

We report Mn superoxide dismutase (SOD) protein and activity in a patient with familial autosomal recessive Lewy body-negative parkinsonism in comparison with patients with sporadic Parkinsons disease (PD) and controls. We recently proved linkage of this family with markers of chromosome 6 at 6q25.2-27, which included the Mn SOD gene. We used a novel polymorphic mutation at -9 position of the signal peptide of the Mn SOD precursor protein, which caused valine to alanine substitution. All the affected members of this family showed homozygosity for alanine, whereas nonaffected members, sporadic PD patients, and the control subjects studied showed either heterozygosity of alanine and valine or homozygosity of valine. The Mn SOD activity of this familial patient was the highest among the PD patients and the control subjects studied, and an abundant expression of Mn SOD was found in the substantia nigra. The molecular weight of Mn SOD protein by Western blotting of this patient was essentially similar to that of PD patients and the control subjects. High Mn SOD activity may constitute a genetic risk factor in this familial patient. The difference in the signal peptide sequence may affect the expression of Mn SOD within mitochondria; however, it is unlikely that loss of function type Mn SOD mutation is the cause of this familial parkinsonism. Mn SOD in sporadic PD patients was similar to that in controls.

Neurochemical and neurogenetic correlates of Parkinson's disease.

Abstract: We discuss neurochemical and neurogenetic correlates of Parkinsons disease (PD) based on the recent progress in the study of its etiology and pathogenesis. Nigral degeneration with the presence of Lewy bodies in the remaining neurons is the pathologic hallmark of PD, and the resultant loss of striatal dopamine is responsible for most of the clinical manifestations. Although the primary cause is still unknown, mitochondrial respiratory failure and oxidative stress appear to be two major contributors to the nigral cell death. Many endogenous and exogenous compounds with structural similarity to MPTP have been postulated as potential neurotoxins inducing nigral cell death in PD, but there is little evidence of accumulation of such compounds in the nigra. Genetic influence has increasingly been recognized as an important risk factor for PD. In this respect, genetic linkage analysis and molecular cloning of the disease genes in familial parkinsonism are of utmost importance today. Recently, the disease gene for one of the autosomal dominant forms of familial PD was identified, and we cloned the gene for an autosomal recessive type of familial parkinsonism that had been mapped to the long arm of chromosome 6 by our group. Information obtained on familial parkinsonism will contribute to the studies on sporadic PD as well.

PARKIN as a pathogenic gene for autosomal recessive juvenile parkinsonism.

Parkinsons disease is a common neurodegenerative disease with complex clinical features. Recently, we idenfied a novel gene named Parkin to be responsible for the pathogenesis of autosomal recessive juvenile parkinsonism (AR-JP). Various mutations were found in AR-JP patients of Japanese and other ethnic origins, providing a definitive evidence for the Parkin to be a causative gene for AR-JP. The predicted structure of Parkin protein and its mutation provide important clues for studying the functional role of the Parkin protein in leading to selective degeneration of nigral neurons in the brains of AR-JP patients.

Autosomal-recessive juvenile parkinsonism in a Jewish Yemenite kindred: Mutation of Parkin gene

We report a Jewish family of Yemenite origin in which three brothers born from a consanguineous marriage had juvenile parkinsonism. The DNA samples from three affected brothers and one healthy brother were analyzed for the linkage to markers covering the autosomal-recessive juvenile parkinsonism (AR-JP) locus. A perfect homozygous cosegregation to the markers was found, giving a maximal lod score of 3.11 at D6S1579, D6S305, and D6S411, all of which are 0 cm apart from each other (nonparametric linkage score, 8.041; p = 0.000977). Exon 3 of the Parkin gene was homozygously deleted in all patients. The AR-JP gene also exists in the Jewish population.

Progress in the clinical and molecular genetics of familial parkinsonism.

ABSTRACT¶Parkinsons disease (PD) is a neurodegenerative disease with clinical features resulting from deficiency of dopamine in the nigrostriatal system. Most PD cases are sporadic and the primary cause of the disease is still unknown. Recently, familial PD and parkinsonism have received much attention because these forms of the disease might provide clues to the genetic risk factors involved in the pathogenesis of idiopathic PD. To date, two causative genes, α- synuclein and the parkin gene, have been identified. α- Synuclein is involved in the pathogenesis of an autosomal dominant form of PD and constitutes a major component of the Lewy body, which is a pathological hallmark of idiopathic PD. In addition, mutations in the parkin gene have been identified as the cause of autosomal recessive juvenile parkinsonism (AR-JP). AR-JP manifests itself as a highly selective degeneration of the substantia nigra and the locus coeruleus, but without Lewy body formation. In addition to these two genes, four chromosomal loci have been linked to other forms of familial PD. Furthermore, there are a number of other pedigrees of familial PD in which linkage to known genetic loci has been excluded. Molecular cloning of these disease genes and elucidation of the function of their gene products will greatly contribute to our understanding of the pathogenesis of idiopathic PD.

Clinical, pathologic and genetic studies on autosomal recessive early-onset parkinsonism with diurnal fluctuation

To clarify the genetic mode and clinical characteristics of familial early-onset parkinsonism with diurnal fluctuation, we studied 43 patients from 22 families. The estimated segregation ratio (0.2963) and absence of gender preponderance indicated autosomal recessive inheritance. Clinical features included the average age at onset of 26.1 years, parkinsonism with marked diurnal fluctuation, remarkable effect of levodopa, dyskinesias, dystonia, hyperreflexia, absence of dementia, and a benign course; autonomic symptoms were only mild if present. Autopsy study in one of our patients disclosed neuronal loss without Lewy bodies and the presence of melanin-poor neurons in the substantia nigra. Linkage analysis on 16 families mapped the disease gene to chromosome 6q25.2-27.