Intracellular insulin binding in Tetrahymena pyriformis

Abstract

Insulin, a classic vertebrate hormone, produces alterations in cellular metabolism and growth in the ciliate Tetrahymena pyriformis, as well as an increase in insulin binding upon subsequent exposure, a phenomenon known as hormonal imprinting. An antibody to a peptide corresponding to the α-subunit of the human insulin receptor (amino acid residues 657–670) was used to investigate the location and to partially characterize immunoreactive proteins in insulin-exposed and non-insulin-exposed cells (control). Confocal microscopy revealed immunofluorescent labeling of cilia, nuclei, vesicles and an oblong structure of unknown nature. Labeling of nuclei, mitochondria and ciliary microtubules was seen with immunoelectron microscopy. Labeling was absent on the cell and ciliary membranes by immunoelectron microscopy. Polyacrylamide gel electrophoresis revealed several differences in protein composition between control and insulin-exposed ciliary membrane extracts, especially in the 30–50 kDa range. Immunoblotting revealed 2 reactive proteins in whole cell lysates but none were detected in ciliary membrane extracts or wheat germ agglutinin affinity column eluates of T. pyriformis whole cell preparations. Based on these findings it is unlikely that a cell surface structure similar to a mammalian insulin receptor exists in T. pyriformis.