Quantification of L-Dopa and Dopamine in Squid Ink: Implications for Chemoreception

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NEUROBIOLOGY AND BEHAVIOR

Quantification of L-Dopa and Dopamine in Squid Ink: Implications for Chemoreception

M. T. Lucero, H. Farrington and W. F. Gilly
University of Utah, Department of Physiology, 410 Chipeta Way, Salt Lake City, Utah 84108

Squid ink is an alarm substance that both confuses predators and alerts conspecifics to the presence of danger. Although the ejection of ink is a powerful visual stimulus, studies also indicate a chemical component to the signal. Squid ink is composed mainly of melanin pigments, but the nonpigmented portion of the ink contains the enzymes and precursors of melanin synthesis. Our previous behavioral studies showed that squid olfactory organs detect L-dopa, a key chemical in melanogenesis. Squid olfactory neurons also respond to dopamine, a biogenic amine not previously described in squid ink. We performed HPLC on ink taken from the ink sacs of adult Loligo opalescens. The ink was conjugated with orthophthaldialdehyde (OPA) and injected into the HPLC, and amine-containing compounds were detected fluorometrically. Standard curves constructed for L-dopa and dopamine allowed quantitation from individual ink sacs. We found that L-dopa was present in undiluted ink at a mean concentration of 1.15 mM and was significantly greater than the mean dopamine concentration of 0.19 mM. These values are greater than those at which both compounds are effective in behavioral and electrophysiological experiments. In addition we found that an unidentified antioxidant in the ink may prevent rapid oxidation of L-dopa and dopamine following dilution in seawater.

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