Tag Archives: Research

A study of the brains of mice shows that structural deterioration associated with old age can be prevented by long-term aerobic exercise starting in mid-life, according to a research article published in PLOS Biology. Researchers found that structural changes that make the blood-brain barrier leaky and result in inflammation of brain tissues in old mice can be mitigated by allowing the animals to run regularly, so providing a potential explanation for the beneficial effects of exercise on dementia in humans.

Physical activity is already known to ameliorate the cognitive decline and sensorimotor deficits seen in old age in humans as well as in mice. To investigate the impact of long-term physical exercise on the brain changes seen in the aging mice, the researchers provided the animals with a running wheel from 12 months old (equivalent to middle aged in humans) and assessed their brains at 18 months (equivalent to ~60yrs old in humans, when the risk of Alzheimer’s disease is greatly increased). Young and old mice alike ran about two miles per night, and this physical activity improved the ability and motivation of the old mice to engage in the typical spontaneous behaviors that seem to be affected by aging. This exercise significantly reduced age-related pericyte loss in the brain cortex and improved other indicators of dysfunction of the vascular system and blood-brain barrier.

Source: PLOS Biology

Investigators have discovered a mechanism behind the spread of neurofibrillary tangles – one of the two hallmarks of Alzheimer’s disease – through the brains of affected individuals. In a report in the journal Nature Communications, researchers describe finding that a particular version of the tau protein, while extremely rare even in the brains of patients with Alzheimer’s disease, is able to spread from one neuron to another and how that process occurs.

“It has been postulated that tangles – the abnormal accumulation of tau protein that fills neurons in Alzheimer’s disease – can travel from neuron to neuron as the disease progresses, spreading dysfunction through the brain as the disease progresses. But how that happens has been uncertain,” said Bradley Hyman, M.D., Ph.D., director of the Massachusetts General Hospital (MGH) Alzheimer’s Disease Research Center and senior author of the report. “Our current study suggests one mechanism at play is that a unique and rare type of tau has the properties we were looking for – it is released from neurons, taken up by other neurons, transported up and down axons, and then released again.”

The current study revealed that, when brain samples from that mouse model were applied to cultured neurons, only 1 percent of the tau in those samples was taken up by the neurons. The tau proteins that were taken up were high molecular weight – meaning that a number of smaller proteins are bound together into a larger molecule – soluble, and studded with a large number of phosphate molecules, a known characteristic of the tau in Alzheimer’s-associated tangles. Similar results were seen in experiments using brain samples from Alzheimer’s patients, both in cultured neurons and in living mice.

Source: Massachusetts General Hospital

New research could lead to improved methods of detection for early-onset Parkinson’s disease (PD).

Recording the responses of fruit flies (Drosophila melanogaster) to different visual patterns, using methods adapted from the study of vision in humans, scientists investigated the nervous systems of flies with different types of Parkinson’s mutations.

The researchers compared flies carrying mutations associated with early-onset Parkinson’s with ‘normal’ control flies and found increased neuronal activity to stimulation in the former group in ‘young’ flies.

By mapping the visual responses of fruit flies with different Parkinson’s genes, the scientists built a substantial data bank of results. Using this they were able to classify unknown flies as having a Parkinson’s-related mutation with 85 per cent accuracy.

Researchers believe it may be possible to transfer this method back to the clinic where early changes in vision may provide a ‘biomarker’ allowing screening for Parkinson’s before the onset of traditional motor-symptoms. Therefore, profiling human visual responses could prove an accurate and reliable test in diagnosing people with early-onset PD.

This method is also likely to succeed when transferred to human detection of Parkinson’s, as visual profiling in humans has proved accurate in the past in detecting genetic markers. In this study, as more complex light stimulations have been used, a more accurate picture of detecting a wider variety of different genetic markers has been revealed.

Source: University of York

Alzheimer’s disease is characterised by two types of lesions, amyloid plaques and degenerated tau protein. Cholesterol plays an important role in the physiopathology of this disease. Two research teams have shown, in a rodent model, that overexpressing an enzyme that can eliminate excess cholesterol from the brain may have a beneficial action on the tau component of the disease, and completely correct it. This is the first time that a direct relationship has been shown between the tau component of Alzheimer’s disease and cholesterol. This work is published in Human Molecular Genetics.

The first step in this work made it possible to show that injecting a viral vector, AAV-CYP46A1, effectively corrects a mouse model of amyloid pathology of the disease, the APP23 mouse. CYP46A1 thus appears to be a therapeutic target for Alzheimer’s disease.

Conversely, in vivo inhibition of CYP46A1 in the mice, using antisense RNA molecules delivered by an AAV vector administered to the hippocampus, induces an increase in the production of Aß peptides, abnormal tau protein, neuronal death and hippocampal atrophy, leading to memory problems. Together these elements reproduce a phenotype mimicking Alzheimer’s disease.

These results demonstrate the key role of cholesterol in the disease, and confirm the relevance of CYP46A1 as a potential therapeutic target (work published in Brain on 3 July 2015).

Taken together, this work now enables the research team to propose a gene therapy approach for Alzheimer’s disease: intracerebral administration of a vector, AAV-CYP46A1, in patients with early and severe forms (1% of patients, familial forms) for whom there is no available treatment.

Source: Inserm

Five months into his five-year term as research commissioner, Carlos Moedas spoke to Nature Magazine about his hopes and ambitions for the scientific programmes run by the European Union (EU), particularly the huge seven-year €80-billion (US$86-billion) Horizon 2020 (H2020) research programme, which runs until 2020.

Moedas wants scientists to change their mentality for H2020, breaking free of individual silos and including more social science. But he is already facing complaints that money is being stripped from the programme to finance other European initiatives, such as the proposed €16-billion European Fund for Strategic Investment (EFSI), a Europe-wide bid to stimulate the region’s economy.

An edited version of the interview is available through the link below:

Source: Nature Magazine

A crucial element of the Joint Programming Process is the alignment of national and European strategies and research programmes with Strategic Research Agendas (SRAs) of Joint Programming Initiatives (JPI).

The High-level Working group on Joint Programming (GPC) has produced a report with the objective of exploring the concept of alignment in order to develop a common understanding of the ways alignment is undertaken in the context of Joint Programming; producing practical recommendations to implement actions that lead to alignment and making proposals for establishing measurable targets to help monitor the progress of alignment.

The report of the group, chaired by JPND Executive Board member Mogens Horder, is availaable for download at the file link below.