Cephalopods possess a well-developed visual system encompassing a pair of camera-type
eyes attached to specific visual processing regions of the central nervous system known as
the optic lobes. The retina contains a single type of photoreceptive cell, which send axons
via a dorso-ventral chiasma to the optic lobes. Although electrophysiological recordings
have been routinely obtained from the retina there are few recordings from the optic lobe.
This study investigated the morphology and electrophysiology of the first synapse in the
Octopus (Eledone cirrosa) visual system.
The morphology and innervation patterns of individual optic nerves onto the optic lobe
were revealed using the carbocyanine dye, Oil. Optic nerves had characteristic mapping
patterns depending upon where they entered the optic lobe. Nerves innervating central
regions of the optic lobe spread laterally in both directions for equal distances. Optic
nerves that entered the lobe on the dorsal and ventral surfaces of the lobes spread for
greater distances in only one direction. The morphology of the photoreceptor terminations
in the cortex were comparable to the morphologies revealed in previous studies.
A brain slice preparation of the octopus optic lobe was developed in order to make the first
in vitro electrophysiological recordings from the first synapse in the visual pathway.
Extracellular pre- and postsynaptic responses were recorded from the optic lobe and these
were characterised. Using a variety of techniques (paired-pulse tests, frequency inhibition,
ionic substitution) the different evoked field potentials recorded from different layers of the
optic lobe slice were separated into pre- and postsynaptic components. Postsynaptic
responses obtained in the outer regions of the plexiform zone were polysynaptic and
negative in inflection whilst those obtained from the inner granular cell layer and medulla
were positive. The effects of altering the extracellular concentrations of Ca2+, Mg2+ and K+
were all investigated. The resultant electrical activity after orthodromic stimulation of a
single optic nerve was mapped in the optic lobe slice and plots of lines of isopotential
produced.
Pharmacological studies using the in vitro slice preparation in conjunction with specific
antagonists to vertebrate receptors were employed to reveal the identity of the
neurotransmitter released from the retinal photoreceptor terminations. The abolishment of
postsynaptic responses with alpha-bungarotoxin and the increase with the
acetylcholinesterase inhibitor (eserine) indicated that the transmitter released is
acetylcholine.
Histochemical and immunohistochemical localisations of putative neurotransmitters (or
their synthetic enzymes) in the cephalopod optic lobe were attempted. No
neurotransmitter-like immunoreactivity was seen in the optic lobe, this was probably due to
the primary antibodies used not recognising antigens in the tissue. In the decapod squid,
Alloteuthis subulata and Loligo forbesii, AChE histochemistry revealed precise anatomical
localisation of this enzyme which concurred with previous studies on other decapod
species.
This study has enhanced the understanding of the cephalopod visual system by providing a
preparation of the optic lobe from which electrophysiological recordings can repeatabley be
obtained. This preparation has been used to provide information about how visual
information is passed from the retina to the central nervous system.
Date of Award | 1999 |
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Original language | English |
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Awarding Institution | |
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MORPHOLOGY AND ELECTROPHYSIOLOGY OF RETINAL PHOTORECEPTOR TERMINATIONS IN THE OCTOPUS (ELEDONE CIRROSA) OPTIC LOBE
Hussey, D. A. (Author). 1999
Student thesis: PhD