Tag Archives: G7 dementia

Researchers have shown how brain connections, or synapses, are lost early in Alzheimer’s disease and demonstrated that the process starts — and could potentially be halted — before telltale plaques accumulate in the brain. Their work, published online by Science, suggests new therapeutic targets to preserve cognitive function early in Alzheimer’s disease.

The researchers show in multiple Alzheimer’s mouse models that mechanisms similar to those used to “prune” excess synapses in the healthy developing brain are wrongly activated later in life. By blocking these mechanisms, they were able to reduce synapse loss in the mice.

Currently, there are five FDA-approved drugs for Alzheimer’s, but these only boost cognition temporarily and do not address the root causes of cognitive impairment in Alzheimer’s. Many newer drugs in the pipeline seek to eliminate amyloid plaque deposits or reduce inflammation in the brain, but the new research from Boston Children’s suggests that Alzheimer’s could be targeted much earlier, before these pathologic changes occur.

“Synapse loss is a strong correlate of cognitive decline,” says Beth Stevens, assistant professor in the Department of Neurology at Boston Children’s, senior investigator on the study and a recent recipient of the MacArthur “genius” grant. “We’re trying to go back to the very beginning and see how synapse loss starts.”

The researchers looked at Alzheimer’s — a disease of aging — through an unusual lens: normal brain development in infancy and childhood. Through years of research, the Stevens lab has shown that normal developing brains have a process to “prune” synapses that aren’t needed as they build their circuitry.

“Understanding a normal developmental process deeply has provided us with novel insight into how to protect synapses in Alzheimer’s and potentially a host of other diseases,” says Stevens, noting that synapse loss also occurs in frontotemporal dementia, Huntington’s disease, schizophrenia, glaucoma and other conditions.

In the Alzheimer’s mouse models, the team showed that synapse loss requires the activation of a protein called C1q, which “tags” synapses for elimination. Immune cells in the brain called microglia then “eat” the synapses — similar to what occurs during normal brain development. In the mice, C1q became more abundant around vulnerable synapses before amyloid plaque deposits could be observed.

When Stevens and colleagues blocked C1q, a downstream protein called C3, or the C3 receptor on microglia, synapse loss did not occur.

“Microglia and complement are already known to be involved in Alzheimer’s disease, but they have been largely regarded as a secondary event related to plaque-related neuroinflammation, a prominent feature in progressed stages of Alzheimer’s,” notes Soyon Hong, the Science paper’s first author. “Our study challenges this view and provides evidence that complement and microglia are involved much earlier in the disease process, when synapses are already vulnerable, and could potentially be targeted to preserve synaptic health.”

A human form of the antibody Stevens and Hong used to block C1q, known as ANX-005, is in early therapeutic development with Annexon Biosciences (San Francisco) and is being advanced into the clinic. The researchers believe it has potential to be used someday to protect against synapse loss in a variety of neurodegenerative diseases.

“One of the things this study highlights is the need to look for biomarkers for synapse loss and dysfunction,” says Hong. “As in cancer, if you treat people at a later stage of Alzheimer’s, it may already be too late.”

The researchers also found that the beta-amyloid protein, C1q and microglia work together to cause synapse loss in the early stages of Alzheimer’s. The oligomeric form of beta-amyloid (multiple units of beta-amyloid strung together) is already known to be toxic to synapses even before it forms plaque deposits, but the study showed that C1q is necessary for this effect. The converse was also true: microglia engulfed synapses only when oligomeric beta-amyloid was present.

Source: Reprinted from materials provided by Boston Children’s Hospital
Paper: “Complement and microglia mediate early synapse loss in Alzheimer mouse models”

Over the past few years, the OECD has conducted work in a number of areas related to innovation in biomedical research and health innovation for healthy ageing.

Entitled “Enhancing Translational Research and Clinical Development for Alzheimer’s Disease and other Dementias”, this report is the main output from a Nov 2014 OECD workshop aimed to provide an international forum for all stakeholders to drive forward a change in the global paradigm in biomedical research and health innovation for Alzheimer’s disease and other dementias.

Discussions at the workshop have shown that progress on key issues is being made, thanks to a willingness of stakeholders to join forces and work together towards a future cure.

In line with recommendations of the G8 Dementia Summit Declaration to strengthen collaboration for innovation and cross-sector partnerships this report considers the challenges and options to promote and accelerate research in dementia and its transformation into innovative therapies and diagnostics.

JPND members are helping to move forward G7 activities in dementia research.

Making better use of data and sharing it among the research community may accelerate neurodegenerative disease research, as it offers the promise of larger and wider datasets that enable new insights from both well-established and novel sources and types of data. Furthermore, moving beyond established medical data into big data offers the potential to tap into routinely collected data from both within and outside health systems.

In December 2013, the G8 Global Dementia Summit in London identified the better use of available data, resource sharing and researcher collaboration as key priorities.  With the ambition to find a cure or disease-modifying therapy by 2025, the G8 health ministers mandated the OECD to report on how big data can be used and shared more efficiently for dementia research.

The results of the OECD review on big data were recently published and presented to the G7 health ministers at the first WHO Ministerial Conference on Global Action Against Dementia in Geneva in March 2015. This case-study review provides an evaluation of existing data sharing practices in research on age-related neurodegenerative diseases.  Four exemplar data sharing initiatives (ADNI, AddNeuroMed, UK Biobank and the Swedish Brain Power studies) were examined to better understand current data sharing practices in dementia research and to recommend the next steps required to move forward.

The OECD report was published under the advice of an International Advisory Group chaired by JPND Executive Board member Robin Buckle, with Philippe Amouyel (JPND Management Board Chair), Yves Joanette (JPND MB member, Canada) and Martin Rossor (Vice-Chair JPND SAB) also participating.

This follows the publication in February 2015 of an OECD compendium of current thinking in this area, bringing together a number of position papers on the use of big data in dementia research. These papers emanated from a workshop at the G7 legacy workshop in Ontario in 2014.

Finally, a wider description of this activity and the emerging big data and open science activities is described within the annual reports of both the World Dementia Council and the G7 Global Action against Dementia (GAAD), both published to coincide with the Geneva WHO Ministerial Conference.

 

Three leading research funders from the UK and North America have joined forces to launch a new global initiative called MEND or, MEchanisms of cellular death in NeuroDegeneration, with a fund of $1.25 million USD for targeted research into brain diseases that cause dementia, such as Alzheimer’s.

Alzheimer’s Research UK, the Alzheimer’s Association based in the U.S. and the Weston Brain Institute in Canada, whose participation in MEND is funded by Selfridges, announce the collaboration in response to the G7 health leaders’ commitment to collectively and significantly increase funding for dementia research, as announced at their December 2013 summit. G7 health leaders met in Bethesda, Maryland (U.S.A), last week to review progress on their goal to identify a cure or disease-modifying treatment by 2025.

MEND is open to applications from scientists around the globe, and researchers will be encouraged to collaborate on projects, sharing knowledge and resources in order to speed up progress. It’s hoped the scheme will also help answer fundamental questions about the similarities and differences between different diseases, such as whether the underlying mechanisms that cause cell death differ from one disease to another, and why each disease affects different types.

Source:  Medical News.net