Fluoroplastic Coverslips for Long-Term Nerve Tissue Culture

Abstract

Fluoroplastics (Aclar and Teflon FEP) were tested for their suitability as coverslip material for nerve tissue cultures. Coverslips prepared from these plastics have a higher transparency over the near-ultraviolet, visible, and infrared regions of the spectrum than glass coverslips, possess exceptional physical and chemical stability, and provide service-ability over a wide temperature range >[long dash]320 to 390 F. For nerve tissue culture, circular 22 mm coverslips were cut from 5 mil sheets of Aclar 22A and 33C, and Teflon FEP 100A, cleaned in concentrated HNO3, rinsed, sterilized in 85% ethyl alcohol, dried, and coated with collagen. Peripheral and central nervous system cultures from fetal rats and newborn mice were set up on these as well as on glass coverslips, and carried in Maximow double coverslip assemblies. Over a 2 mo. period of cultivation, neuronal maturation, tissue organization and fiber myelination occurred on plastic coverslips in essentially the same manner as in sister cultures maintained on glass coverslips. Cultures fixed and embedded in Epon for electron microscopy directly on Aclar or Teflon 100A coverslips were easily separated from the coverslip. Some difficulty was encountered with retraction of the collagen coat from Teflon 100A coverslips, however, and Aclar 22A coverslips were warped by some of the reagents used in embedding for electron microscopy. Aclar 33C was not adversely affected by these reagents, and provided the most suitable base for collagenization and culture maintenance. A variety of cells grew satisfactorily on either the bare or the collagenized surface of this plastic, and separated easily from it following embedment in Epon.