Biochemical and physiological evidence that bile acids produced and released by lake char (Salvelinus namaycush) function as chemical signals.

It has been hypothesized that faeces of juvenile lake char (Salvelinus namaycush) may contain chemical cues that mediate behaviour of conspecifics. However, our knowledge of bile acids naturally produced and released by fish is limited. Using HPLC, we fractionated bile acids produced and released by lake char and examined their stimulatory effectiveness using electro-olfactogram recordings. Taurocholic acid, taurochenodeoxycholic acid, taurooxocholanic acid, taurooxodeoxycholic acid 3alpha-sulphate, trace amounts of taurolithocholic acid and an unidentified sulphated bile steroid were found in bile and faeces. Bile acids were either taurine amidated or sulphated, or both. Lake char released an average of 4 nmol min(-1) bile acids per kilogram of body weight into their tank water. Urinary bile acids accounted for only a small portion of total bile acids released into water. Water and faeces contained higher proportion of taurochenodeoxycholic acid and sulphated bile acids (relative to taurocholic acid) than bile. The electro-olfactogram recordings demonstrated that bile acids released by lake char were detectable by their olfactory system at nanomolar concentrations, which is well below the levels of bile acids released into water. The exquisite olfactory sensitivity of lake char to water-borne bile acids released by their conspecifics is consistent with a role for these compounds as important chemical signals.