Human β-Synuclein Rendered Fibrillogenic by Designed Mutations

Filamentous inclusions made of α-synuclein are found in nerve cells and glial cells in a number of human neurodegenerative diseases, including Parkinson disease, dementia with Lewy bodies, and multiple system atrophy. The assembly and spreading of these inclusions are likely to play an important role in the etiology of common dementias and movement disorders. Both α-synuclein and the homologous β-synuclein are abundantly expressed in the central nervous system; however, β-synuclein is not present in the pathological inclusions. Previously, we observed a poor correlation between filament formation and the presence of residues 73–83 of α-synuclein, which are absent in β-synuclein. Instead, filament formation correlated with the mean β-sheet propensity, charge, and hydrophilicity of the protein (global physicochemical properties) and β-strand contiguity calculated by a simple algorithm of sliding averages (local physicochemical property). In the present study, we rendered β-synuclein fibrillogenic via one set of point mutations engineered to enhance global properties and a second set engineered to enhance predominantly β-strand contiguity. Our findings show that the intrinsic physicochemical properties of synucleins influence their fibrillogenic propensity via two distinct but overlapping modalities. The implications for filament formation and the pathogenesis of neurodegenerative diseases are discussed.     

The α-glycerophosphate cycle inDrosophila melanogaster. I. Biochemical and developmental aspects

The two α-glycerophosphate dehydrogenases ofDrosophila melanogaster (mitochondrial αGPO and soluble αGPDH) have been biochemically characterized in a preliminary investigation of the α-glycerophosphate cycle inDrosophila. The soluble enzyme is NAD linked and can be distinguished from the mitochondrial oxidase in terms of locational specificity,pH optimum, salt precipitation, and electrophoretic behavior. The mitochondrial enzyme is NAD independent and exhibits behavior typical of a lipoprotein. Extraction procedures are described for αGPO with nonionic detergents. Isoelectric focusing of αGPO on polyacrylamide gels resolved two molecular forms of αGPO which differ in isoelectric point, ease of extraction, and developmental and spatial distribution. Developmental profiles of both αGPO and αGPDH are presented. The occurrence of multiple forms of both the soluble (Wright and Shaw, 1969) and the mitochondrial forms of the enzymes is discussed in light of a multifunctional role of the α-glycerophosphate cycle inDrosophila. This project was supported by a Genetics Training Grant T1 GM 1035 from the National Institute of General Medical Sciences.     

Physician retirement: a case for concern in Canadian hospitals.

Mandatory retirement is being challenged on the basis of age discrimination, and physicians are not divorced from this social trend. In January 1982 legal precedent was set by the Manitoba Court of Appeal concerning the retirement policy for physicians in Canada. Currently, Canadian hospital bylaws include clauses that require a change in membership status once a physician reaches 65 years of age. The main arguments in favour of this change include easier physician manpower management, ensured public safety and, in some instances, greater productivity. The main arguments against this change include loss of income to physicians, loss of skilled manpower to the profession and adverse effects on the mental and physical health of retiring physicians. In an effort to resolve this conflict some Canadian hospitals are developing strategies for reviewing the specific privileges and responsibilities physicians will retain once they reach age 65. The medical staff of the Victoria General Hospital in Halifax, NS have addressed this issue through their annual reappointment process.     

Effects of resource quality on the population dynamics of the Indian meal moth Plodia interpunctella and its granulovirus

Although the Plodia interpunctella-granulovirus system is one of the most studied models for insect-pathogen interactions, there are relatively few precise data on the dynamics of the virus in coexisting populations of these two organisms. Previous work has suggested that resource quality, in terms of the diet supplied to P. interpunctella, has a strong effect on the population dynamics of host and pathogen. Here we investigate the impact of resource-dependent host patterns of abundance on pathogen dynamics and prevalence. In the laboratory, three populations of P. interpunctella feeding on a good quality food and infected with a granulovirus were compared with three populations also infected with a granulovirus but feeding on poor quality food. Populations feeding on good quality food produced larger adult moths, and had greater numbers of adult moths, healthy larvae, and virus-infected larvae. A higher proportion of larvae in these good quality populations were infected with virus, and adult moths exhibited cyclic fluctuations in abundance, unlike those on poor quality food. This cyclic behaviour was shown to be associated with cycles in the age structure of the larval population. Previous theoretical work suggests that these cycles may result from asymmetric competition between young and old larvae. Cyclic fluctuations in the proportion of infected larvae, that occurred on good, but not on poor quality food, were also shown to be related to cycles in the age structure of the larval population.