A Swedish researcher says astrococytes, the most abundant cell type in the brain, can lead to new treatment for stroke victims.

Stroke is the result of an infarction, or bleeding, within the brain, and it may lead to impaired movement, impaired sensation, and difficulties in cognitive function and speech. Approximately 30,000 people are affected by stroke each year in Sweden, and it is the most common cause of long-term dependence on care.

"Researchers all over the world are intensively searching for new treatments. One interesting possibility is that of activating stem cells in the damaged brain such that the brain can be repaired and regain its function", says stem cell researcher Jonas Faijerson.

Stem cells are immature cells that reside in selected regions of the adult brain. These cells can develop either into nerve cells or into other cells that are important in the brain, such as astrocytes.

The dissertation shows that activated astrocytes release substances that activate stem cells within the brain.

"We have shown that a very interesting hormone known as 'TRH' is released in large amounts after a stroke, and that this hormone can not only protect from damage but also lead to the activation of stem cells", says Jonas Faijerson.

The stem cells also release survival factors to the surrounding brain tissue when the brain is injured or diseased. The dissertation describes the identification of a completely unknown survival factor, which the researchers have named "pentinin".

"Pentinin protects brain cells from several of the effects that a stroke causes. Both TRH and pentinin are interesting candidates for the development of new treatment strategies for patients with stroke. It is possible that these substances could be given in tablet form, as a drop, or as a nasal spray, when a stroke is suspected", says Jonas Faijerson.

The research has been carried out at the Centre for Brain Repair and Rehabilitation at the Sahlgrenska Academy. The dissertation was submitted for the degree of Ph. D. in Medicine at the Sahlgrenska Academy, Institute of Neuroscience and Physiology, Section for Clinical Neuroscience and Rehabilitation and has been successfully defended.

Title of the dissertation: Neural Stem/Progenitor cells in the Post-ischemic Environment: Proliferation, Differentiation and Neuroprotection