Summary
The parapineal organ of the glass eel (elver) consists of approximately 400 cells and is situated to the left of the connection of the pineal stalk to the third ventricle. A conspicuous nerve tract containing approximately 350 fibers arises from the parapineal organ and runs in spatial relationship to the habenular commissure toward the left habenular nucleus. The dominating cell type of the parapineal organ of the elver is a neuron (sensory neuron) of small diameter provided with atypical cilia (9×2+0, or rarely 8×2+0 types). Well-developed photoreceptor outer segments are lacking, and no interstitial cells of ependymal type have been observed with certainty in the parapineal organ. The axonal processes from the nerve cells form the tract leaving the parapineal organ.
The pineal organ proper of the elver consists of photoreceptor cells with well-developed outer segments, interstitial cells of ependymal type, and ganglion cells. Axons from the latter form the pineal tract, which leaves the pineal organ and runs in close contact with the subcommissural organ toward the posterior commissure. The proximal part of the pineal stalk contains only a few photoreceptor cells the outer segments of which are less developed than those of the pineal body and the distal part of the pineal stalk.
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References
Bertin L (1956) Eels. A biological study. Cleaver-Hume Press Ltd, London
Blest AD (1961) Some modifications of Holmes' silver method for insect central nervous systems. Q J Microsc Sci 102:413–417
Dodt E (1973) The parietal eye (pineal and parietal organs) of lower vertebrates. In: Autrum H, Jung R, Loewenstein WR, MacKay DM, Teuber HL (eds) Handbook of sensory physiology, Vol VII/3B. Springer-Verlag, Berlin Heidelberg New York, pp 113–140
Falcon J (1979) L'organe pineal du Brochet (Esox lucius, L.) I. Étude anatomique et cytologique. Ann Biol Anim Biochim Biophys 19:445–465
Friedrich-Freksa A (1932) Entwicklung, Bau und Bedeutung der Parietalgegend bei Teleostiern. Z Wiss Zool 141:52–142
Hafeez MA, Zerihun L (1974) Studies on central projections of the pineal nerve tract in rainbow trout, Salmo gairdneri Richardson, using cobalt chloride iontophoresis. Cell Tissue Res 154:485–510
Korf H-W (1974) Acetylcholinesterase-positive neurons in the pineal and parapineal organs of the rainbow trout, Salmo gairdneri (with special reference to the pineal tract). Cell Tissue Res 155:475–489
Leonhardt H (1980) Ependym und Circumventriculäre Organe. In: Oksche A, Vollrath L (eds) Handbuch der mikroskopischen Anatomie des Menschen IV/10 Neuroglia I. Springer-Verlag, Berlin Heidelberg New York, pp 177–544
Meiniel A (1971) Étude cytophysiologique de l'organe parapineal de Lampetra planeri. J Neurovisceral Relat 32:157–199
Oksche A (1965) Survey of development and comparative morphology of the pineal organ. Prog Brain Res 10:3–29
Oksche A, Hartwig H-G (1979) Pineal sense organs — components of photoneuroendocrine systems. Prog Brain Res 52:113–130
Quay WB (1979) The parietal eye — pineal complex. In: Gans C (ed) Biology of the reptilia, vol 9:245–406
Romeis B (1968) Mikroskopische Technik. R Oldenbourg Verlag, München Wien
Rüdeberg C (1969) Structure of the parapineal organ of the adult rainbow trout, Salmo gairdneri Richardson. Z Zellforsch 93:282–304
Rüdeberg C (1971) Structure of the pineal organs of Anguilla anguilla L. and Lebistes reticulatus Peters (Teleostei). Z Zellforsch 122:227–243
Schulte E (1972) Untersuchungen an der Regio olfactoria des Aals, Anguilla anguilla L. I. Feinstruktur des Riechepithels. Z Zellforsch 125:210–228
Studnička FK (1905) Die Parietalorgane. In: Oppel A (ed) Lehrbuch der vergleichenden mikroskopischen Anatomie der Wirbeltiere. 5:1–254
Ueck M, Kobayashi H (1979) Neue Ergebnisse zu Fragen der vergleichenden Epiphysenforschung. Verh Anat Ges 73:961–963
Veen Th van, Hartwig H-G, Müller K (1976) Light-dependent motor activity and photonegative behaviour in the eel. Anguilla anguilla. Evidence for extraretinal and extrapineal photoreception. J Comp Physiol 111:209–219
Veen Th van, Ekström P, Borg B (1980) The pineal complex of the three-spined stickleback, Gasterosteus aculeatus L. A light-, electron microscopic and fluorescence histochemical investigation. Cell Tissue Res 209:11–28
Vigh B, Vigh-Teichmann I (1974) Vergleich der Ultrastruktur der Liquorkontaktneurone und Pinealozyten. Verh Anat Ges 68:433–443
Vigh B, Vigh-Teichmann I, Aros B (1975) Comparative ultrastructure of cerebrospinal fluid-contacting neurons and pinealocytes. Cell Tissue Res 158:409–424
Vigh-Teichmann I, Vigh B, Aros B (1976) Cerebrospinal fluid-contacting neurons, ciliated perikarya and “peptidergic” synapses in the magnocellular preoptic nucleus of teleostean fishes. Cell Tissue Res 165: 397–413
Vigh-Teichmann I, Röhlich P, Vigh B, Aros B (1980) Comparison of the pineal complex, retina and cerebrospinal fluid contacting neurons by immuno-cytochemical antirhodopsin reaction. Z Mikrosk Anat Forsch 94:623–640
Vollrath L (1981) The pineal organ. In: Oksche A, Vollrath L (eds) Handbuch der mikroskopischen Anatomie des Menschen. Band 6/7. Springer-Verlag, Berlin Heidelberg New York
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Van Veen, T. The parapineal and pineal organs of the elver (glass eel), Anguilla anguilla L.. Cell Tissue Res. 222, 433–444 (1982). https://doi.org/10.1007/BF00213223
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DOI: https://doi.org/10.1007/BF00213223