Summary
The multicellular epithelial organs in Proteus anguinus, which Bugnion (1873) assumed to be developing neuromasts, have been analyzed by lightand electron-microscopy. Their fundamental structure consists of single ampullae with sensory and accessory cells with apical parts that extend into the pit of the ampulla, and of a short jelly-filled canal connecting the ampulla pit with the surface of the skin. The organs are located intra-epithelially and are supported by a tiny dermal papilla. The cell elements of sensory epithelium are apically linked together by tight junctions. The free apical surface of the sensory cell bears several hundred densely packed stereocilia-like microvilli whereas the basal surface displays afferent neurosensory junctions with a pronounced round synaptic body. The compact uniform organization of the apical microvillous part shows a hexagonal pattern. A basal body was found in some sensory cells whereas a kinocilium was observed only in a single cell. The accessory cells have their free surface differentiated in a sparsely distributed and frequently-forked microvilli. The canal wall is built of two or three layers of tightly coalescent flat cells bordering on the lumen with branching microvilli. The ultrastructure of the content of the ampulla pit is presented.
In the discussion stress is laid on the peculiarities of the natural history of Proteus anguinus that support the view that the morphologically-identified ampullary organs are electroreceptive. The structural characteristics of ampullary receptor cells are dealt with from the viewpoint of functional morphology and in the light of evolutionary hypotheses of ampullary organs.
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References
Bennedetti E (1933) Il cervello e i nervi cranici del Proteus anguineus Laur. Mem Ist Ital Speleol, Trieste 11:1–79
Bennett MVL (1971) Electroreception. In: Hoar WS, Randall DJ (eds) Sensory system and electric organs. Academic Press, New York London, 493–574
Benshalom G, Flock Å (1980) Ultrastructure of the synapses in the lateral line canal organ. Acta Otolaryngol 90:161–174
Bodznick D, Northcutt RG (1981) Electroreception in lampreys: Evidence that the earliest vertebrates were electroreceptive. Science 212:465–467
Briegleb W (1962) Zur Biologie und Ökologie des Grottenolms (Proteus anguinus Laur. 1768). Z Morphol Ökol Tiere 51:273–334
Briegleb W (1963) Zur Kenntnis eines Ökotops von Proteus anguinus Laur. 1768. Poročila Acta Carsologica 3:151–196
Briegleb W, Schwarzkopff J (1961) Verhaltensweisen des Grottenolms (Proteus anguinus Laur.) und das Problem des Fortpflanzungsraumes. Sond Naturwiss 22:1–3
Bugnion E (1873) Recherches sur les organes sensitifs qui se trouvent dans l'épiderme du protée et de l'axolotl. Bull Soc Vaud SC Nat Laussane 12:259–316
Durand JP (1971) Recherches sur l'appareil visuel du protée, Proteus anguinus Laurenti, Urodele hypogé. Ann Speleol 26:497–824
Flock Å, Jørgensen JM (1974) The ultrastructure of lateral line sense organs in the juvenile salamander Ambystoma mexicanum. Cell Tissue Res 152:283–292
Fritzsch B (1981) The pattern of lateral line afferents in urodeles. A horseradish-peroxidase study. Cell Tissue Res 218:581–594
Hetherington TE, Wake MH (1979) The lateral line system in larval Ichthyophis (Amphibia, Gymnophiona). Zoomorphology 93:209–225
Istenič L (1971) Izhodišče za reševanje ekološke problematike človeške ribice (Proteus anguinus Laur. 1768). (Approach to the solution of the problem of the ecology of Proteus). Biol Vestn 19:125–130
Istenič L (1979) Pomanjkanje kisika v Putickovem jezeru Planinske jame. (The oxygen deficit in Putick lake of Planinska jama.) Acta Carsol VIII/8:335–352
Istenič L (1982) Point de départ pour la recherche de l'adaption du Protée. Bull Soc Herp Fr 22:9–16
Istenič L, Bulog B (1976) Anatomske raziskave membranskega labirinta pri močerilu (Proteus anguinus Laurenti, Urodela, Amphibia). (Anatomical investigations of membranous labyrinth in proteus (Proteus anguinus Laurenti, Urodela, Amphibia)). Razprave-Dissertationes XIX/2:21–59
Istenič L, Bulog B (1979) Strukturne diferenciacije ustno-žrelne sluznice pri močerilu (Proteus anguinus Laur.). (The structural differentiation of buccal and pharyngeal mucous membrane of the Proteus). Biol Vestn 27:1–12
Lissman H (1967) Some general comments. In: Cahn P (ed) Lateral line detectors. Indiane Univ Press, Blomington, 411–414
Mullinger AM (1964) The fine structure of ampullary electric receptors in Amiurus. Proc R Soc Lond [Biol] 160:345–359
Parzefall J (1976) Die Rolle der chemischen Information im Verhalten des Grottenolms Proteus anguinus Laur. (Proteidae, Urodela). Z Tierpsychol 42:29–49
Parzefall J, Durand JP, Richard B (1980) Chemical communication in Necturus maculosus and his cave living relative Proteus anguinus (Proteidae, Urodela). Z Tierpsychol 53:133–138
Peters RC, Bretschneider F (1972) Electric phenomena in habitat of the catfish Ictalurus nebulosus LeS. J Comp Physiol 81:345–362
Peters RC, Buwalda RJA (1972) Frequency responce of the electroreceptors (“Small Pit Organs”) of the catfish, Ictalurus nebulosus LeS. J Comp Physiol 79:29–38
Pfeiffer W (1968) Die Fahrenholzschen Organe der Dipnoi und Brachiopterygii. Z Zellforsch 90:127–147
Roth A (1969) Elektrische Sinnesorgane beim Zwergwels Ictalurus nebulosus (Ameiurus nebulosus). Z vergl Physiologie 65:368–388
Roth A (1971) Zur Funktionsweise der Elektrorezeptoren in der Haut von Welsen (Ictalurus): Der Einfluss der Ionen in Süsswasser. Z vergl Physiologie 75:303–322
Roth A, Tscharntke H (1976) Ultrastructure of the ampullary electroreceptors in lungfish and Brachiopterygii. Cell Tissue Res 173:95–108
Sato A (1974) Electron microscopic study of the developing lateral line organ in the embryo of the newt, Triturus pyrrhogaster. Anat Rec 86:565–584
Srivastava CBL, Seal M (1981) Electroreceptors in Indian catfish teleosts. In: Szabó T, Czéh G (eds) Sensory physiology of aquatic lower vertebrates. Adv Physiol Sci Vol 31:1–11, Pergamon Press, Akadémiai Kiadó
Szabó T (1974) Anatomy of the specialized lateral line organs of electroreception. In: Fessard A (ed) Handbook of sensory physiology, Vol III/3. Springer, Berlin, 13–58
Szabó T, Fessard A (1974) Physiology of electroreceptors. In: Fessard A (ed) Handbook of sensory physiology, Vol III/3, Springer, Berlin, 59–124
Thinés G, Durand JP (1973) Connaissances actuelles sur l'appareil sensoriel de la ligne latérale chez les vertébrés cavernicoles aquatiques. Ann Speleol 28:271–282
Thomson KS (1977) On the individual history of cosmine and a possible electroreceptive function of the pore-canal system in fossil fishes. In: Andrews SM, Miles RS, Walker AD (eds) Problems in vertebrate evolution. Academic Press, New York, 247–270
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Istenič, L., Bulog, B. Some evidence for the ampullary organs in the European cave salamander Proteus anguinus (Urodela, Amphibia). Cell Tissue Res. 235, 393–402 (1984). https://doi.org/10.1007/BF00217865
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DOI: https://doi.org/10.1007/BF00217865