Identification of extraretinal photoreceptors in the teleost Phoxinus phoxinus

The existence of cells capable of detecting changes of the photoperiod within the deep brain, the so-called deep brain photoreceptors, was proposed in the early years of the twentieth century. By using immunocytochemistry with antisera against phototransductory proteins on paraffin and vibratome sec...

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Bibliographic Details
Published inHistology and histopathology Vol. 19; no. 2; p. 487
Main Authors Alvarez-Viejo, M, Cernuda-Cernuda, R, Alvarez-López, C, García-Fernández, J M
Format Journal Article
LanguageEnglish
Published Spain 01.04.2004
Subjects
Animals
Brain - metabolism
Epithalamus - metabolism
Fishes
Hypothalamus - metabolism
Immunohistochemistry
Light
Models, Biological
Neurons - metabolism
Photoreceptor Cells - metabolism
Retina - metabolism
Retina - physiology
Retinal Rod Photoreceptor Cells - metabolism
Rod Opsins - metabolism
Transducin - metabolism
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Summary:The existence of cells capable of detecting changes of the photoperiod within the deep brain, the so-called deep brain photoreceptors, was proposed in the early years of the twentieth century. By using immunocytochemistry with antisera against phototransductory proteins on paraffin and vibratome sections, we have localized several positive areas in the brain of the teleost Phoxinus phoxinus. These areas were restricted to two encephalic regions: the epithalamus and the hypothalamus. Immunopositive (rod-opsin- and a-transducin-like) pinealocytes and parapinealocytes, as well as some sparse neurons in the habenula, were seen in the epithalamus. The immunoreaction of the hypothalamus was represented by a-transducin-like positive (magnocellular and parvicellular) neurons of the Nucleus Preopticus, as well as by a-transducin- and arrestin-like positive fibers corresponding to the hypothalamic-hypophyseal tract and a few fibers running towards the basal telencephalon. These findings corroborate the data published on other teleost fish and fully support the hypothesis of the presence of photosensitive cells in the encephalon of lower vertebrates. The labelling with antisera against different components of the phototransductory cascade also strengthens the idea that such cells employ a biochemical mechanism similar to that in the retinal visual photoreceptor cells, rods and cones. Although the function is still unclear, the detection of the photoperiod seems to be the most likely role for these extraretinal photoreceptors.
ISSN:0213-3911
DOI:10.14670/HH-19.487