By studying the immune system of pairs of monozygotic twins to rule out genetics in cases of multiple sclerosis, researchers may have discovered a smoking gun: precursor cells of the disease-causing T cells.
Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system CNS and the most common cause of neurological impairment in young adults. In MS, the patient’s own immune system attacks the CNS, resulting in cumulative neurological damage. The cause of MS still unclear but a variety of genetic risk factors and environmental influences have already been linked to the disease.
Genetics have already been found to be a necessary condition for developing multiple sclerosis. “Based on our study, we were able to show that about half of the composition of our immune system is determined by genetics,” said Florian Ingelfinger, a PhD candidate at the UZH Institute of Experimental Immunology. The study shows that these genetic influences, while always present in MS patients, are not on their own sufficient to trigger multiple sclerosis. In the study, 61 pairs of monozygotic twins where one twin is affected by MS whereas the co-twin is healthy were examined. From a genetic point of view, the twins were thus identical. “Although the healthy twins also had the maximum genetic risk for MS, they showed no clinical signs of the disease,” said Lisa Ann Gerdes.
With this cohort of twins, the researchers were tease out environmental differences. “We are exploring the central question of how the immune system of two genetically identical individuals leads to significant inflammation and massive nerve damage in one case, and no damage at all in the other,” explained Professor Burkhard Becher, leader of the research team. Using identical twins let the researchers block out the genetic influence and focus on the immune system changes that were ultimately responsible for triggering MS in one twin.
The researchers harnessed state-of-the-art technologies to describe the immune profiles of the twin pairs in great detail. “We use a combination of mass cytometry and the latest methods in genetics paired with machine learning to not only identify characteristic proteins in the immune cells of the sick twin in each case, but also to decode the totality of all the genes that are switched on in these cells,” Florian Ingelfinger explained.
“Surprisingly, we found the biggest differences in the immune profiles of MS affected twins to be in the cytokine receptors, ie the way immune cells communicate with one another. The cytokine network is like the language of the immune system,” said Ingelfinger. Increased sensitivity to certain cytokines leads to greater T cell activation in the bloodsteams of patients with multiple sclerosis. These T cells are more likely to migrate into the CNS and cause damage there. The identified cells were found to have the characteristics of recently activated cells, which were in the process of developing into fully functional T cells. “We may have discovered the cellular big bang of MS here – precursor cells that give rise to disease-causing T cells,” said Prof Becher.
“The findings of this study are particularly valuable in comparison to previous studies of MS which do not control for genetic predisposition,” said Prof Becher. “We are thus able to find out which part of the immune dysfunction in MS is influenced by genetic components and which by environmental factors. This is of fundamental importance in understanding the development of the disease.”
The study findings were reported in Nature.
Source: University of Zurich