Patterned jaw movements and the motor neuron activity during rejection of seaweed in Aplysia kurodai

Japanese Aplysia kurodai feeds well on Ulva. In the present experiments we collected several species of seaweed at a location with many animals and initially explored the preference behavior for them. The animals rejected Grateloupia, Pachydictyon, Gelidium and Laurencia with rhythmic jaw and radula movements (active rejection). The animals sometimes bit off a piece of them (biting-off response). Recording activity of muscles contributing to jaw-opening and jaw-closing in freely moving animals showed that the onset of the jaw-closing activity, which always started later than the jaw-opening activity during each cycle of ingestion of Ulva, was advanced toward that of the jaw-opening activity during each cycle of the active rejection. Semi-intact experiments also showed that application of Pachydictyon or Gelidium extract to the lip region advanced the firing onset of the jaw-closing motor neurons at the radula-retraction phase. Video analysis showed that during the Ulva response the jaws opened at the radula-protraction phase and remained half-open at the earlier radula-retraction phase, while the jaws opened similarly at the radula-protraction phase but immediately closed at the radula-retraction phase during the Pachydictyon or Gelidium response. Accepted: 8 October 1997     

Gastropod arginine kinases from Cellana grata and Aplysia kurodai. Isolation and cDNA-derived amino acid sequences

Arginine kinase (AK) was isolated from the radular muscle of the gastropod molluscs Cellana grata (subclass Prosobranchia) and Aplysia kurodai (subclass Opisthobranchia), respectively, by ammonium sulfate fractionation, Sephadex G-75 gel filtration and DEAE-ion exchange chromatography. The denatured relative molecular mass values were estimated to be 40 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The isolated enzyme from Aplysia gave a K_m value of 0.6 mM for arginine and a V_max value of 13 μmole Pi min⁻¹ mg protein⁻¹ for the forward reaction. These values are comparable to other molluscan AKs. The cDNAs encoding Cellana and Aplysia AKs were amplified by polymerase chain reaction, and the nucleotide sequences of 1608 and 1239 bp, respectively, were determined. The open reading frame for Cellana AK is 1044 nucleotides in length and encodes a protein with 347 amino acid residues, and that for A. kurodai is 1077 nucleotides and 354 residues. The cDNA-derived amino acid sequences were validated by chemical sequencing of internal lysyl endopeptidase peptides. The amino acid sequences of Cellana and Aplysia AKs showed the highest percent identity (66–73%) with those of the abalone Nordotis and turbanshell Battilus belonging to the same class Gastropoda. These AK sequences still have a strong homology (63–71%) with that of the chiton Liolophura (class Polyplacophora), which is believed to be one of the most primitive molluscs. On the other hand, these AK sequences are less homologous (55–57%) with that of the clam Pseudocardium (class Bivalvia), suggesting that the biological position of the class Polyplacophora should be reconsidered.     

cDNA cloning of an alginate lyase from a marine gastropod Aplysia kurodai and assessment of catalytically important residues of this enzyme

Herbivorous marine gastropods such as abalone and sea hare ingest brown algae as a major diet and degrade the dietary alginate with alginate lyase (EC 4.2.2.3) in their digestive fluid. To date alginate lyases from Haliotidae species such as abalone have been well characterized and the primary structure analyses have classified abalone enzymes into polysaccharide-lyase-family 14 (PL-14). However, other gastropod enzymes have not been so well investigated and only partial amino-acid sequences are currently available. To improve the knowledge for primary structure and catalytic residues of gastropod alginate lyases, we cloned the cDNA encoding an alginate lyase, AkAly30, from an Aplysiidae species Aplysia kurodai and assessed its catalytically important residues by site-directed mutagenesis. Alginate lyase cDNA fragments were amplified by PCR followed by 5′- and 3′-RACE from A. kurodai hepatopancreas cDNA. The finally cloned cDNA comprised 1313 bp which encoded an amino-acid sequence of 295 residues of AkAly30. The deduced sequence comprised an initiation methionine, a putative signal peptide for secretion (18 residues), a propeptide-like region (9 residues), and a mature AkAly30 domain (267 residues) which showed ∼40% amino-acid identity with abalone alginate lyases. An Escherichia coli BL21(DE3)-pCold I expression system for recombinant AkAly30 (recAkAly30) was constructed and site-directed mutagenesis was performed to assess catalytically important amino-acid residues which had been suggested in abalone and Chlorella virus PL-14 enzymes. Replacements of K99, S126, R128, Y140 and Y142 of recAkAly30 by Ala and/or Phe greatly decreased its activity as in the case of abalone and/or Chlorella virus enzymes. Whereas, H213 that was essential for Chlorella virus enzyme to exhibit the activity at pH 10.0 was originally replaced by N120 in AkAly30. The reverse replacement of N120 by His in recAkAly30 increased the activity at pH 10.0 from 8 U/mg to 93 U/mg; however, the activity level at pH 7.0, i.e., 774.8 U/mg, was still much higher than that at pH 10.0. This indicates that N120 is not directly related to the pH dependence of AkAly30 unlike H213 of vAL-1.     

Peptidergic motoneurons in the buccal ganglia of Aplysia californica Immunocytochemical,morphological, and physiological characterizations

Summary We used physiological recordings, intracellular dye injections and immunocytochemistry to further identify and characterize neurons in the buccal ganglia of Aplysia calif ornica expressing Small Cardioactive Peptide-like immunoreactivity (SCP-LI). Neurons were identified based upon soma size and position, input from premotor cells B4 and B5, axonal projections, muscle innervation patterns, and neuromuscular synaptic properties. SCP-LI was observed in several large ventral neurons including B6, B7, B9, B10, and B11, groups of s1 and s2 cluster cells, at least one cell located at a branch point of buccal nerve n2, and the previously characterized neurons B1, B2 and B15.B6, B7, B9, B10 and B11 are motoneurons to intrinsic muscles of the buccal mass, each displaying a unique innervation pattern and neuromuscular plasticity. Combined, these motoneurons innervate all major intrinsic buccal muscles (I1/I3, I2, I4, I5, I6). Correspondingly, SCP-LI processes were observed on all of these muscles. Innervation of multiple nonhomologous buccal muscles by individual motoneurons having extremely plastic neuromuscular synapses, represents a unique form of neuromuscular organization which is prevalent in this system. Our results show numerous SCPergic buccal motoneurons with widespread ganglionic processes and buccal muscle innervation, and support extensive use of SCPs in the control of feeding musculature.Abbreviations SCP-LI small cardioactive peptide-like immunoreactivity - PSC postsynaptic current - EPSP excitatory postsynaptic potential - IPSP inhibitory postsynaptic potential - FI facilitation index - TMR time to maximal response     

Voltage-dependent calcium current in dissociated smooth muscle cells of the buccal mass of Aplysia

Summary Isolated smooth muscle cells of the buccal mass of Aplysia contracted in response to depolarization elicited by a patch electrode in whole-cell configuration. With cesium-containing pipet solution and tetraethylammonium and 4-aminopyridine in the external solution depolarization elicited inward current. The voltage-dependent inward current was blocked completely by lanthanum (10 mmol·1^-1), inhibited 80–90% by nifedipine (1 mol·l^-1), and was dependent upon extracellular calcium. These results showed that the voltage-dependent inward current was due to activation of voltage-dependent calcium channels (VDCaCH). Minimal depolarization to begin activating VDCaCH was-60 to-30 mV. Inward current peaked within 8 ms and then decreased rapidly to a lower level of relatively non-inactivating current. The initial peak current could be mostly inactivated by a depolarization to-20 mV for 500 ms. Nifedipine reduced both the peak current and the relatively non-inactivating current. Nifedipine inhibited high potassium-elicited contractions of both intact and dissociated muscle. These results suggested that VDCaCH mediates calcium influx which triggers contraction in molluscan smooth muscle fibers.Abbreviations ACh acetylcholine - ATP adenosine triphosphate - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N,N,N-tetraacetic acid - GTP guanosine triphosphate - HEPES N-2-hydroxyethylpiperazine-N-2-ethane sulfonic acid - MCG metacerebral giant cell - RNI relatively non-inactivating - SCP small cardioactive peptide - TEA-4AP-IO external solution containing Instant Ocean, tetraethylammonium chloride, and 4-aminopyridine (described in Methods) - TEA tetraethylammonium chloride - VDCaCH voltagedependent calcium channel - 4-AP 4-aminopyridine - 5-HT 5-hydroxytryptamine or serotonin     

Presynaptic contributions to response shape in an auditory neuron of the grasshopper

Neuron 714 is morphologically one of the most prominent neurons in the central auditory pathway of the grasshopper with arborizations extending from the abdominal neuromeres of the metathoracic ganglion to the brain. The aim of this study is to explore auditory information flow involving neuron 714 at the level of the ventral nerve cord. Paired intracellular recordings were made from neuron 714 in the mesothorax on the one hand, and from candidate presynaptic auditory neurons of the metathorax on the other. Electrical stimulation of the tympanal nerves provides an estimate of the synaptic distance between these interneurons and auditory afferents. Four, including neuron 714, are monosynaptically connected to afferents, the remainder disynaptically. Current-injection and spike-triggered averaging reveal that of nine neurons examined, seven make either monosynaptic, disynaptic or polysynaptic connections onto neuron 714. All connections are excitatory. Paired recordings show that response duration and response amplitude in synaptically linked cells vary according to the frequency of the stimulus. Measurements of the latency of the first excitatory post-synaptic potential evoked in neuron 714 by afferents and by metathoracic interneurons show how the synaptic drive from these sources shapes the auditory response of neuron 714. Accepted: 14 October 1998     

Effect of age on acetylcholinesterase and other hemolymph proteins in Aplysia

Summary Hemolymph was examined in young (ca. 86 days old), mature (ca. 163 days old), and old (ca. 294 days old) Aplysia for age-related changes in constituent proteins. In young, mature, and old animals protein concentrations were 1.6±0.27, 1.41±0.53, and 1.45±0.43 mg·ml^-1, respectively. The copper-containing respiratory protein, hemocyanin, measured by determining the copper concentration, was found to increase significantly from young (0.98±0.51 g·ml^-1) to mature (2.02±0.95 g·ml^-1) Aplysia, with little change between mature and old (1.92±0.43 g·ml^-1) animals. These findings were consistent with the results obtained when hemocyanin was directly measured by spectrophotometric absorption at 340 nm. Acetylcholinesterase (AChE) was present in the hemolymph of Aplysia. Its activity was highest in mature animals (3121±1627 units·mg^-1) and least in old animals (1463±599 units·mg^-1). Young animals had intermediate levels (2080±762 units·mg^-1). SDS-PAGE revealed a distinct pattern of protein bands for hemolymph from each age group; hemolymph from the young group contained six prominent protein bands with molecular weights (MW) from 13 to 300 kDa. Hemolymph of mature and old animals exhibited four and three prominent protein bands, respectively, with MW between 45 and 300 kDa. A prominent band at 97 kDa was present in samples from the mature group, but was faint in samples from the old group and absent in samples from the young group. Under non-denaturing conditions the hemolymph protein band patterns for each group differed from the others, thereby demonstrating that the age-dependent differences in the protein profiles are intrinsic to hemolymph in vivo. Isoelectric focusing of the hemolymph samples revealed that the proteins were all acidic (pI ca. 3.0–6.5). The hemolymph from the young differed from the other two groups in having an additional acidic protein (pI ca. 4.0). A possible link between age-related changes in hemolymph proteins and age-related changes in the nervous system is proposed.Abbreviations 2-ME 2-mercaptoethanol - AChE acetylcholinesterase - FMRFamide amidated tetrapeptide containing phenylalanine, methionine, arginine and phenylalanine - MW molecular weight - PAS periodic acid-Schiff - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - TRIS tris-(hydroxymethyl)-aminomethane     

Carbonic anhydrase is required for statoconia homeostasis in organ cultures of statocysts from Aplysia californica

A novel organ culture system has been developed to study the regulation of statoconia production in the gravity sensing organ in Aplysia californica. Statocysts were cultured in Leibovitz (L15) medium supplemented with salts and Aplysia haemolymph for four days at 17°C. The viability of the system was evaluated by examining four parameters: statocyst morphology, the activity of the mechanosensory cilia in the statocyst, production of new statoconia during culture and change in statoconia volume after culture. There were no morphological differences in statocysts before and after culture when ciliary beating was maintained. There was a 29% increase in the number of statoconia after four days in culture. Mean statocyst, statolith and statoconia volumes were not affected by culture conditions. The presence of carbonic anhydrase in the statocysts was shown using immunohistochemistry. When statocysts were cultured in the presence of 4.0 × 10^–4 M acetazolamide to inhibit the enzyme activity, there was a decrease in statoconia production and statoconia volume, indicating a role for this enzyme in statoconia homeostasis, potentially via pH regulation. These studies are the first to report a novel system for the culture of statocysts and show that carbonic anhydrase is involved in the regulation of statoconia volume and production.     

Characterization of buccal motor programs elicited by a cholinergic agonist applied to the cerebral ganglion of Aplysia californica

Applying the non-hydrolyzable cholinergic agonist carbachol (CCh) to the cerebral ganglion of Aplysia elicits sustained, regular bursts of activity in the buccal ganglia resembling those seen during biting. The threshold for bursting is 10^2–4 M. Bursting begins after a 2 to 5 min delay. The burst frequency increases over the first 5 bursts, reaching a plateau value of 3 per minute. Bursting is maintained for over 10 min. Some of the effects of CCh may be attributed to its ability to depolarize and fire CBI-2, a command-like neuron in the cerebral ganglion that initiates biting. CBI-2 is also depolarized by ACh, and by stimulating peripheral sensory nerves. Excitation of CBI-2 caused by carbachol is partially blocked by the muscarinic antagonist atropine. We examined whether CCh-induced bursting is modified in ganglia taken from Aplysia that previously experienced treatments inhibiting feeding, such as satiation, head shock contingent or non-contingent with food, and training animals with an inedible food. No treatment consistently and repeatedly affected the latency, the peak burst period, the length of time that bursting was maintained, or the threshold CCh concentration for eliciting bursting. However, there was a decrease in the rate of the buildup of the buccal ganglion program in previously satiated animals.     

Stress-elicited changes in amino acid levels of hemolymph of Aplysia californica

The effects of stress produced by noxious cutaneous stimulation on the concentration of 18 amino acids in the hemolymph of Aplysia californica were examined. The concentration of alanine and glutamate increased in response to stress and remained elevated for at least 6 h. The total amino acid concentration in the hemolymph did not change significantly in response to stress. It is concluded that stress evokes an increase in circulating alanine and glutamate levels. These factors may then act in a paracrine, endocrine, or neuroendocrine manner to modify stress-associated behaviors.Abbreviations AA amino acids(s) - bw body weight - SEM standard error of the mean - SW sea water     

Isolation of an egg-laying hormone-binding protein from the gonad of Aplysia californica and its localization in oocytes

A protein solubilized from a membrane preparation of the gonad of Aplysia californica has been isolated by affinity chromatography, using bag cell egg-laying hormone (ELH) as the bound ligand, and partially purified and characterized by gel electrophoresis. The protein has an apparent molecular weight of 52 kDa and consists of two disulfide-linked subunits of about 30 kDa each. The protein is glycosylated and has an acidic pI. Approximately 10–15 g of this protein can be isolated from a single ovotestis, representing less than 1% of the total protein in the gonad; but the protein could not be detected in buccal mass or body wall, tissues which do not have apparent response to ELH.Antibodies generated against this ELH-binding protein (ELHBP) were used to localize sites in the ovotestis which might contain this molecule and thus represent targets for egg-laying hormone. Immunocytochemical results indicate that the oocytes are a rich source of this protein, since their cytoplasm was the only detectable site of immunoreactivity.Whether this binding protein represents an egg-laying hormone receptor is uncertain, but its prevalence in oocytes suggests that ELH plays a signaling role on these gametes.Abbreviations ConA convalin A - DAB diaminobenzidine - ELH egg-laying hormone - ELHBP ELH-binding protein - IEF isoelectric focusing - IGFR insulin-like growth factor - IgG immunoglobulin - NGS normal goat serum - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecylsulfate     

Distinct receptors for Leu- and Met-enkephalin on the metacerebral giant cell ofAplysia

1. The effects of D-Ala2-Leu-enkephalin (DALEU), D-Ala2-Met-enkephalin (DAMET), and FMRFamide on the metacerebral cell (MCC) of Aplysia were determined in current- and voltage-clamp experiments. 2. Distinct receptors exist on this neuron for the three substances. 3. DALEU elicited a depolarizing response due to an inward current but not accompanied by a significant change in membrane conductance. 4. In contrast, DAMET elicited a hyperpolarizing response due to an outward current, also not associated with a significant change in membrane conductance. 5. Both the DALEU and the DAMET responses increased with hyperpolarization, decreased with depolarization, but did not reverse at potentials less than -30 mV. Neither response was sensitive to naloxone. 6. FMRFamide induced a voltage-dependent outward current that reversed at about -76 mV. This neuron was responsive to much lower concentrations of FMRFamide than either of the enkephalins, and the response to FMRFamide appears to be a conductance increase to K+. 7. These results suggest that the MCC neuron has distinct receptors for Leu- and Met-enkephalin that activate unusual responses of opposite polarity, as well as more usual inhibitory responses to FMRFamide.     

Functional and morphological evidence for the existence of neurites from abdominal ganglion bag cell neurons in the head-ring ganglia of Aplysia

Summary Three lines of evidence are presented indicating that axons of the Aplysia neuroendocrine bag cells extend into the head-ring ganglia of the CNS. When the abdominal ganglion was bisected longitudinally, separating the two bag cell clusters, an afterdischarge induced in one cluster generated an afterdischarge in the other via activity through the head-ring ganglia to which each half abdominal ganglion was attached by connective nerves. This suggests that some axons of bag cells in each cluster communicate through the head-ring ganglia. Retrograde labelling of bag cells occurred when rhodamine-onjugated latex microspheres were injected into the cerebral or either pleural ganglion, a direct demonstration that bag cell axons extend into these ganglia. Finally, cell LP1 in the left pleural ganglion was inhibited during a bag cell afterdischarge, an action mimicked by application of alpha-bag cell peptide (BCP). Since BCP can act only close to its site of release due to susceptibility to peptidase activity, it is likely that LP1 inhibition is dependent on the local release of BCP from bag cell neurites in the pleural ganglion. These results open new possibilities for how bag cell afterdischarges may be initiated and broaden the distribution of their effects.Abbreviations ASW artificial sea water; -BCP -bag cell peptide - ELH egg-laying-hormone - IR immunorective - PB phosphate buffer - PVC pleurovisceral connective     

The fate of specific motoneurons and sensory neurons of the pregenital abdominal segments inTenebrio molitor (Insecta : Coleoptera) during metamorphosis

The anatomy and innervation of the lateral external muscle and sensory cells located in the ventral region of pregenital abdominal segments were examined at the larval and adult stages ofTenebrio molitor (Coleoptera). All seven muscles located in this region degenerate during the pupal stage, whilst only the lateral external median (lem) appears in the adult. Backfillings of the motor nerve innervating this muscle reveal that, at both larval and adult stages, it is innervated by ten neurons. Intracellular records from the muscle fibres show that two neurons are inhibitory, and at least five are excitatory. There are also two unpaired neurons. A variety of sensory organs are located in the ventral region of the larvae, whilst only campaniform sensilla are found in the adult. At both stages, the innervation pattern of the sensory nerve branches is very similar. Also, the central projections of the sensory cells occupy similar neuropilar areas. Finally, prolonged intracellular records from the lem muscle revealed that, at the larval stage, it participates only in segmental or intersegmental reflexes, whilst in the adult it has a primary expiratory role in ventilation. The results show that extensive changes occur in the number of muscles located in the ventral region of the pregenital abdominal segments, as well as in the arrangement and number of sensory neurons, in the structure of the exoskeleton, and even in the central nervous system. In contrast, only minor changes are observed in the sensory and motor nerve branches, in the sensory projections, and in the number and the location of the motoneurons innervating the lateral external median muscle. Correspondence to: G. Theophilidis     

Cellular expression patterns of acetylcholinesterase activity during grasshopper development

We examined the expression of acetylcholinesterase (AChE) in the nervous system and epidermal body structures during embryonic and larval development of two grasshopper species: Locusta migratoria and Schistocerca americana. Histochemical labelling was blocked by the enzyme inhibitors eserine and BW284c51, but not by iso-OMPA, showing that the staining reflected true AChE activity. The majority of staining was localized on the cell surface but granular intracellular staining was also visible in many cell bodies. In both species, the cellular expression of AChE followed a similar but complex spatiotemporal staining pattern. Initially, mainly epidermal tissue structures were stained in the various body appendages (stages 25%–30%). Labelling subsequently appeared in outgrowing neurons of the central nervous system (CNS) and in the nerves innervating the limbs and dorsal body wall (stages 30%–40%). The latter staining originated in motoneurons of the ventral nerve cord. In a third phase (after 45%), the somata of certain identified mechanosensory neurons started to express AChE activity, presumably reflecting cholinergic differentiation. Staining was also found in repo-positive glial cells of the CNS, longitudinal glia of connectives, glia of the stomatogastric nervous system and glial cells ensheathing peripheral nerves. Glial cells remained AChE-positive during larval to adult development, whereas motoneurons lost their AChE expression. The expression pattern in non-neuronal cells and glutamatergic motoneurons and the developmental appearance of AChE prior to synaptogenesis in the CNS suggest non-cholinergic functions of AChE during grasshopper embryogenesis. Financial support was provided by the Deutsche Forschungsgemeinschaft (Bi 262/7-1 and 262/11-1)     

Inhibition of the calcitonin-induced outward current in identifiedAplysia neurons by interleukin-1 and interleukin-2

Summary 1. The effects of bath-applied recombinant human interleukin-1 (rhIL-1) and interleukin-2 (rhIL-2) on the calcitonin (CT)-induced outward current recorded from identified neurons (R9–R12) ofAplysia kurodai were investigated with conventional voltage-clamp and pressure ejection techniques.2. Micropressure ejection of CT onto the soma of the neuron induced a slow outward current [I _o(CT); 4–6 nA in amplitude, 30–40 sec in duration] associated with a decrease in input membrane conductance.3.I _o(CT) was increased by hyperpolarization.4. The extrapolated reversal potential was +10 mV. Additionally,I _o(CT) was sensitive to changes in (Na⁺)_o but not to changes in (K⁺)_o, (Ca²⁺)_o, and (Cl^–)_o.5. Micropressure-ejected forskolin produced a slow outward current similar to that induced by CT.6. Bath-applied rhIL-1 and rhIL-2 (10–40 U/ml) reduced the CT-induced current in identifiedAplysia neurons without affecting the resting membrane conductance or the holding current.7. The inhibitory effects of both cytokines on the current were completely reversible. Heat-inactivated rhIL-1 and rhIL-2 were without effect.8. These results suggest that the immunomodulators, IL-1 and IL-2, can modulate the CT-induced outward current associated with a decrease in Na⁺ conductance in the nervous system ofAplysia. Therefore, the study suggests that these cytokines may also serve as neuromodulators.     

The hybrid modulatory/pattern generating N1L interneuron in the buccal feeding system ofLymnaea is cholinergic

This study examines neurotransmission between identified buccal interneurons in the feeding system of the snailLymnaea stagnalis. We compare the pharmacology of the individual synaptic connections from a hybrid modulatory/pattern generating interneuron (N1L) to a pattern generating interneuron (N1M) with that from a modulatory interneuron (SO) to the same follower cell (N1M). The pharmacological properties of the N1L to N1M and the SO to N1M connections closely resemble each other. Both interneurons produce fast cholinergic EPSPs as judged by the blocking effects of cholinergic antagonists hexamethonium,d-tubocurarine and the cholinergic neurotoxin AF-64A. A slower, more complex but non-cholinergic component of the synaptic response is also present after stimulating either the presynaptic N1L or SO interneurons. This second component of the postsynaptic response is not dopaminergic, on the basis of its persistence in the presence of dopaminergic antagonists ergometrine and fluphenazine and the dopaminergic neurotoxin MPP+. We conclude that, although there has been an evolutionary divergence in function, the modulatory SO and the hybrid modulatory/pattern generating N1L are pharmacologically similar. Neither of them contributes directly to dopaminergic modulation of the feeding activity. These neurons also resemble the N1M protraction phase pattern generating neurons which are cholinergic (Elliott and Kemenes, 1992).     

Neural structures in the receptive field of pleural ganglion mechanosensory neurons of Aplysia californica

The peripheral processes of the mechanoafferents that, when stimulated, initiate the much-studied tail withdrawal reflex of Aplysia californica have not been characterized. We show that immunofluorescence staining for class III -tubulin highlights neurons and reveals nerve tracts and fine neuronal processes in Aplysia tissue. Coupled with transmission and scanning electron microscopy, class III -tubulin immunofluorescence is consistent with the possibility that mechanoafferents in the receptive field of pleural ganglion mechanosensory neurons penetrate the tail epidermis and terminate as ciliated endings. This view is reinforced by comparisons among neuronal processes in several mechanosensory epidermal regions and in a chemosensory epidermis.