Vascular smooth muscle cells of male and female rats in culture, migration, proliferation and chromosome number.

Abstract

The authors evaluated the migratory and proliferative properties and the chromosome number of cultivated male and female smooth muscle cells (SMC) obtained by the explanation method from the thoracic aorta of rats of a conventional and a specific pathogen-free (SPF) breed. It was found that male SMC, in most cases, began to migrate from the explants sooner than female SMC and that they migrated from a higher total number of explants. The time needed for the number of cells in the culture to double (doubling time) was practically the same for male and female SMC, but male SMC attained a higher maximum population density. Male SMC cultures (2nd passage) contained cells with a hyperploid chromosome number, whereas female SMC were diploid. It was also found that SMC from conventional rats, in which the presence of pathogens could be presumed, displayed higher migratory and proliferative capacity than the SMC of SPF rats. The capacity of the SMC of male rats for migration and proliferation could have been potentiated by the effect of a different composition of the intercellular matrix and a different chromosome number, and in conventional rats by the presence of pathogens.