A step towards understanding cell mutations that cause a variety of human diseases, particularly in children - including that which brings about premature aging and early death - has been taken by researchers at the Hebrew University of Jerusalem Silberman Institute of Life Sciences and the John Hopkins University School of Medicine.
The scientists have focused their research on a study of induced mutations in the nuclear envelope of cells from the tiny C. elegans worm. Their aim is to thus provide clues towards a better understanding of mutations in proteins of the envelope of the cell nucleus in humans.
Such mutations, particularly in lamin (nuclear envelope) proteins A and C, cause many different diseases, including Hutchison Gilford progeria syndrome. Children with this disease develop premature aging and die usually before the age of 13. Other diseases brought about by these mutations include a form of muscular dystrophy, cardiomyopathy (a weakening of the heart muscle), and various other forms of irregular or retarded growth in childhood.
A report on the lamin research project was published in a recent issue of the Proceedings of the National Academy of Sciences in the U.S. The project was carried out primarily by Ayelet Margalit, a doctoral student in genetics at the Hebrew University, working under the supervision of Prof. Yosef Gruenbaum, and in cooperation with Prof. Katherine L. Wilson and Dr. Miriam Segura-Totten of Johns Hopkins University.