Producing new neurons under all circumstances: A challenge that is just a mouse away
Wednesday, April 10, 2013These results incentivise the development of targeted therapies enabling improved neurone production to alleviate cognitive decline in the elderly and reduce the cerebral lesions caused by radiotherapy.
The research is published in the journal EMBO Molecular Medicine.
New neurones are formed regularly in the adult brain in order to guarantee that all our cognitive capacities are maintained. This neurogenesis may be adversely affected in various situations and especially:
- in the course of ageing,
- after radiotherapy treatment of a brain tumour. (The irradiation of certain areas of the brain is, in fact, a central adjunctive therapy for brain tumours in adults and children).
According to certain studies, the reduction in our "stock" of neurones contributes to an irreversible decline in cognition. In the mouse, for example, researchers reported that exposing the brain to radiation in the order of 15 Gy is accompanied by disruption to the olfactive memory and a reduction in neurogenesis. The same happens in ageing in which a reduction in neurogenesis is associated with a loss of certain cognitive faculties. In patients receiving radiotherapy due to the removal of a brain tumour, the same phenomena can be observed.
Researchers are studying how to preserve the "neurone stock". To do this, they have tried to discover which factors are responsible for the decline in neurogenesis.
Contrary to what might have been believed, their initial observations show that neither heavy doses of radiation nor ageing are responsible for the complete disappearance of the neural stem cells capable of producing neurones (and thus the origin of neurogenesis). Those that survive remain localised in a certain small area of the brain (the sub-ventricular zone (SVZ)). They nevertheless appear not to be capable of working correctly.
Additional experiments have made it possible to establish that in both situations, irradiation and ageing, high levels of the cytokine TGF? cause the stem cells to become dormant, increasing their susceptibility to apoptosis (PCD) and reducing the number of new neurones.
"Our study concluded that although neurogenesis reduced in ageing and after a high dose of radiation, many stem cells survive for several months, retaining their 'stem' characteristics", explains Marc-Andre Mouthon, one of the main authors of the research, that was conducted in conjunction with Jos? Pi?eda and Fran?ois Boussin.
The second part of the project demonstrated that pharmacological blocking of TGF? restores the production of new neurones in irradiated or ageing mice.
For the researchers, these results will encourage the development of targeted therapies to block TGF? in order to reduce the impact of brain lesions caused by radiotherapy and improving the production of neurones in the elderly presenting with a cognitive decline.
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INSERM (Institut national de la sant? et de la recherche m?dicale): http://www.inserm.fr
Thanks to INSERM (Institut national de la sant? et de la recherche m?dicale) for this article.
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