An immunocytotoxicity assay for neural cells in monolayer cultures

Abstract

The immunological analysis of cell surface constituents which may characterize neuronal and glial populations, though still in its infancy, will greatly facilitate the investigation of several important problems in neurobiology. One critical component of such analyses is the way by which a given antiserum can be shown to be active on, and possibly selective for neurons and glial cells from normal neural tissues. This report describes the use of monolayer cultures of normal neural cells for recognition and quantitative titration of antisera directed against them. Sera were collected from rabbits immunized with chick embryo spinal cord cell susptnsions, and found to be reactive to the same cells in the initial cell dissociate as well as in subsequent monolayer cultures of different in vitro ages. A monolayer assay procedure was developed, which ( i) uses small numbers of cells and small volumes of immune reagents, with the possibility of further scaling down; ( ii) applies equally to cultures using different substrata; ( iii) permits differential counts of morphologically different cultured cells; ( iv) allows to recognize cytological damage imposed by the immune serum in the presence, though not in the absence, of complement; and ( v) quantitatively titrates the immune activity with 10- to 20-fold higher sensitivity than other titration procedures. While the study was not intended to investigate the possible specificities of the new antisera, it provided the unexpected observation that non-neuronal cells in these spinal cell cultures were considerably less sensitive than neurons to the complement-dependent action of the antisera.