Detection of contraction of isolated smooth muscle cells in suspension

Abstract

A Coulter counter has been utilized to assess the contractile state of suspensions of isolated smooth muscle cells prepared by enzymatic digestion of stomach muscularis of Bufo marinus. Pulse-duration and pulse-hieght histograms were constructed from the pulses that occur as cells pass through the Coulter counter orifice. Contraction of cells in suspension causes shifts in these pulse histograms to a greater percent of shorter duration pulses and of larger pulse heights. These shifts are consistent with teh assumption made in out studies that the duration and amplitude of the pulses generated are related to the length and cross-sectional area (or square of the diameter), respectively, of the cell. Shifts in the pulse-height histogram were found to be more reliable. The results of a calibration experiment in which shifts in the histograms of pulse heights were linerrly related to shifts in the histograms of all lengths measured from photomicrographs suggested that the shifts in the pulse-height histogram could be used as a continuous index of changes in the contractile state of a population of cells in suspension.