COMPENSATORY CHANGES OF GOLDFISH MAUTHNER NEURONS INDUCED BY SENSORY STIMULATION AND BETA-AMYLOID APPLICATION



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Objective - to study thedendrite structure and formation in goldfish Mauthner neurons under the conditions of neurotoxic action of the 25-35 beta-amyloid fragment and long-term optical or vestibular stimulation of goldfish, which affects the afferent inputs to these neurons. Materials and methods.The study was performed on Mauthner neurons of the goldfish fry (n=13) by the methods of light and electron microscopy. The identification of individual dendrites and the determination of their volumes and synaptic structure were carried out using the virtual 3D images of Mauthner neurons obtained from 3 μm serial sections. The functional state of Mauthner neurons was assessed indirectly on the basis of fish the motor lateralization. Results. Under the influence of beta-amyloid application in combination with subsequent long-term sensory stimulation, the volume of ventral dendrites of Mauthner neurons was decreased, their ultrastructure was damaged, and a portion of synapses degenerated. The degeneration of more active neurons was more significant as compared with less active ones. Newly formed medial dendrites had larger volume and less injured ultrastructure of synapses, than those of the ventral dendrites. In the synapses of the same type, localized on ventral and medial dendrites, the sizes of specialized contacts didn’t differ. Conclusions. Medial dendrite formation is a compensatory response to the dystrophy of ventral dendrites caused by experimental interference

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作者简介

N. Tiras

RAS Institute of Theoretical and Experimental Biophysics; Pushchino State Institute of Natural Sciences

Email: ntiras@rambler.ru
Laboratory of Experimental Neurobiology; Faculty of Biophysics and Biomedicine 3 Institutskaya Str., Pushchino, Moscow Region 142290; 3 Prospect Nauki, Pushchino, Moscow Region 142290

I. Mikheyeva

RAS Institute of Theoretical and Experimental Biophysics

Laboratory of Experimental Neurobiology 3 Institutskaya Str., Pushchino, Moscow Region 142290

G. Mikhailova

RAS Institute of Theoretical and Experimental Biophysics

Laboratory of Experimental Neurobiology 3 Institutskaya Str., Pushchino, Moscow Region 142290

N. Pen’kova

RAS Institute of Theoretical and Experimental Biophysics

Laboratory of Experimental Neurobiology 3 Institutskaya Str., Pushchino, Moscow Region 142290

Ye. Bezgina

RAS Institute of Theoretical and Experimental Biophysics

Laboratory of Experimental Neurobiology 3 Institutskaya Str., Pushchino, Moscow Region 142290

参考

  1. Михайлова Г. З., Коканова Н. А., Тирас Н. Р., Мошков Д. А. Трехмерная реконструкция и определение объема нейрона. М.: Либроком, 2012.
  2. Cochran J. N., Hall A.M, Roberson E. D. The dendritic hypothesis for Alzheimer’s disease pathophysiology // Brain Res. Bull. 2014. Vol. 103. P. 18-28.
  3. Grutzendler J., Helmin K., Tsai J., Gan W. B. Various dendritic abnormalities are associated with fibrillar amyloid deposits in Alzheimer’s disease // Ann. N Y Acad. Sci. 2007. Vol. 1097. P. 30-39.
  4. Kokanova N. A., Michailova G. Z., Shtanchaev R. S., Bezgina E. N., Tiras N. R., Moshkov D. A. Morphofunctional and ultra structural consequences of application of beta-amiloid in goldfish Mauthner neurons // Neurophysiology. 2014. Vol. 46. P. 33-42.
  5. Korn H., Faber D. The Mauthner cell half a century later: a neurobiology model for decision-making? // Neuron. 2005. Vol. 47, № 1. P. 13-22.
  6. Luebke J. I., Weaver C. M., Rocher A. B. Rodriguez A., Crimins J. L., Dick stein D. L., Weame S. L., Hof P. R. Dendritic vulne rability in neurodegenerative disease: insights from analyses of cortical pyramidal neurons in transgenic mouse models // Brain Struct. Funct. 2010. Vol. 214. P. 181-199.
  7. Mikhailova, G. Z., Pavlik, V.D., Tiras, N. R., Moshkov, D. A. Correlation between the sizes of Mauthner neurons and the preference of goldfish to turn to the right or left // Neurosci. Behav. Physiol. 2006. Vol. 36. P. 419-422.
  8. Moshkov D. A., Shtanchaev R. S., Mikheeva I. M., Bezgina E. N., Kokanova N. A. Mikhailova G. Z., Tiras N. R., Pavlik L. L. Visual input controls the functional activity of goldfish Mauthner neuron through the reciprocal synaptic mechanism // J. Integr. Neurosci. 2013. Vol. 12. № 1. P. 17-33.
  9. Siskova Z., Justus D., Kaneko H., Friedrichs D., Henneberg N., Beu tel T., Pitsch J., Schoch S., Becker A., Kammer H., Remy S. Dendritic structural degeneration is functionally linked to cellular hyperexcitability in a mouse model of Alzheimer’s disease // Neuron. 2014. Vol. 84. Р. 1023-1033.
  10. Tiras N. R., Pen,kova N. A., Besgina Ye.N., Alilova G. A., Moshkov D. A. Changes in motor asymmetry of the goldfish related to adaptation to vestibular stimulation and applications of beta-amyloid on mauthner cells // Neurophysiology. 2015. Vol. 47. P. 115-127.
  11. Vickers J. C., Mitew S., Woodhouse A., Fernandez-Martos C. M., Kirkcaldie M. T., Canty F. J., McCormack G. H., King A. E. Defining the earliest pathological changes of Alzheimer’s di sease // Curr. Alzheimer Res. 2016. Vol. 13. Р. 281-287.

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