Detection of alkaloids and carbohydrates by taste receptor cells of the galea of gypsy moth larvae, Lymantria dispar (L.)

Gypsy moth larvae are polyphagous feeders. The electrophysiological responses of the medial and lateral styloconic sensilla to four secondary compounds (e.g., alkaloids), two carbohydrates, and one inorganic salt were examined using an extracellular tip-recording method. In the medial sensillum, one taste receptor cell responded to the alkaloids, strychnine, caffeine, nicotine, and aristolochic acid (i.e., deterrent-sensitive cell), while another, responded to the sugar alcohol and inositol (inositol-sensitive cell). In both medial and lateral sensilla, two taste receptor cells in each sensillum responded minimally and sporadically to 30 mM potassium chloride (KCl) (i.e., KCl-sensitive cells); one cell produced much larger amplitude action potentials than the other. In the medial sensillum, only the large-amplitude KCl-sensitive cell exhibited an increased firing rate with increasing salt concentration. When binary mixture experiments were conducted, it was confirmed that the large-amplitude KCl-sensitive cell and the deterrent-sensitive cell in the medial sensillum were one in the same cell. Only a single cell in the lateral sensillum responded to the sugar, sucrose (sucrose-sensitive cell). The temporal dynamics of responses of the deterrent-sensitive, sucrose-sensitive, and inositol-sensitive cells were compared. Concentration–response data were obtained for the deterrent-sensitive cell to various alkaloids, as well as to KCl.