Resolution No.220 of the Government of the Russian Federation “On measures designed to attract the world's leading scientists to Russian institutions of higher education, research organizations of the governmental academies of sciences, and governmental research centers of the Russian Federation”.

Duration of the project: 2011-2013

Objective

The main goal of the project is to understand how the brain operates at the early developmental stages, which correspond to the fetal period in human and postnatal period in rodents. 

Partner organization 

Coordinator at INSERM                                                                                                          

Prof. Rustem Khazipov, Director of Research, Head of Laboratory, l'Institut de Neurobiologie de la Méditerranée (INMED), DR2 INSERM U901, Marseille, France

Coordinator at KFU                                                                                                                  

Prof. Guzel Sitdikova, PhD, Head of Department of Human and Animal Physiology, Head of Laboratory of Neurobiology, Institute of fundamental medicine and biology

Project activity

During the project we determine the mechanisms underlying the sensory-experience dependent plasticity in the thalamocortical synapses during formation of cortical maps. Our main hypothesis is that sensory-evoked spindle-burst oscillations in the gamma frequency range (early gamma oscillations, EGOs) temporally bind topographically aligned thalamic and cortical neurons and potentiate synapses connecting these cells. We will test this hypothesis in the model of thalamocortical synapse in the developing rat whisker-related somatosensory barrel cortex. In the first aim, we will determine the role of EGOs in coding for the sensory input from one whisker to the corresponding cortical barrel column and temporal binding of the thalamic and cortical neurons. We will then determine the EGOs' network mechanisms by exploring a hypothesis of coherent gamma-oscillators in thamalus and cortex. In the third aim, by providing various conditions for the spike-time dependent plasticity, we plan to demonstrate that synchronization of thalamic and cortical neurons in EGOs leads to potentiation and stabilization of topographic thalamocortical synapses. Finally, we will attempt to verify whether sensory stimulation of the local input triggers gamma oscillations in the topographic regions of S1 cortex in the human premature neonates. Taken together, these results will unravel the mechanisms underlying sensory experience – dependent formation of the somatosensory cortical map during the critical developmental period.

Outcomes

2011 – Set up of the Laboratory of Neurobiology at KFU 

Publications

• Dzhala V, Valeeva G, Glykys J, Khazipov R, Staley K (2012) Traumatic Alterations in GABA Signaling Disrupt Hippocampal Network Activity in the Developing Brain. J Neurosci 32:4017-4031.
• O.B. Mitrukhina, D.S. Suchkov, G.F. Sitdikova, R.N. Khazipov, M.G. Minlebaev. Frequency coding in the developing somatosensory cortex. Uchenye Zapiski Kazanskogo Universiteta. Seriya Estestvennye Nauki V. 154, № 2 С. 85-96, 2012
•  Gerasimova E.V. 1, А. V.Zakharov1, J.A. Lebedeva1, A.R. Igancio,2, M.G. Minlebaev1,2, G.F. Sitdikova1 , R.Khazipov1 Sensory evoked responses in somatosensory cortex of neonatal rats,// Bulletin of Experimental Biology and Medicine 2013
• Valeeva G, Valiullina F, Khazipov R. Excitatory actions of GABA in the intact neonatal rodent hippocampus in vitro. Front Cell Neurosci. 2013;7:20. doi: 10.3389/fncel.2013.00020. Epub 2013 Mar 5.
• Colonnese M, Khazipov R. Spontaneous activity in developing sensory circuits: Implications for resting state fMRI. Neuroimage. 2012 Oct 1;62(4):2212-21. doi: 10.1016/j.neuroimage.2012.02.046. Epub 2012 Feb 24. Review.
• A. V. Yakovlev,  K. S. Korolеva,  F. F. Valiullina, R. N. Khazipov Resting Membrane Potential of the Rat Ventroposteriomedial Thalamic Neurons during Postnatal Development // Biologicheskie membrany, 2013, том 30, № 4, с. 1–7
• R. Khazipov,  M. Colonnese, M. Minlebaev Neonatal Cortical Rhythms // Chapter in “Neural circuit development and function in the healthy and diseased brain: comprehensive developmental neuroscience”, Volume 3 – in print (monography)
• Valeeva G., Valiullina F. and Khazipov R. (2013). Excitatory actions of GABA in the intact neonatal rodent hippocampus in vitro. Front. Cell. Neurosci. 7(20), 1-12.
• Gerasimova E.V., А.V. Zakharov, J.A. Lebedeva, A.R. Inacio, M.G. Minlebaev, G.F. Sitdikova, R. Khazipov.  (2013). Sensory evoked responses in somatosensory cortex of neonatal rats.  Bull. Exp. Biol. Med. 156(9), 268-272.
• Minlebaev M., Valeeva G., Tcheremiskine V., Coustillier G., Khazipov R. (2013). Cell-attached recordings of responses evoked by photorelease of GABA in the immature cortical neurons. Front. Cell. Neurosci. 7(83), 1-10.
• A. Shatillo, K. Koroleva, R. Giniatullina, N. Naumenko, A.A. Slastnikova, R.R. Aliev, G. Bart, M. Atalay, C. Gu, R. Khazipov, B. Davletov, O. Grohn, R. Giniatullin. (2013). Cortical spreading depression induces oxidative stress in the trigeminal nociceptive system. Neuroscience 253, 341-349
• Khazipov R., Minlebaev M., Valeeva G. (2013). Early gamma oscillations. Neuroscience 250, 240-252. (Review). 
• Sitdikova G., Zakharov A., Janackova S.,  Gerasimova E., Lebedeva J., Inacio A.R., Zaynutdinova D.,  Minlebaev M., Holmes G., Khazipov R. (2013). Isoflurane suppresses early cortical activity. Annals of Clinical and Translational Neurology (in press).
• Khazipov R., Minlebaev M. Neonatal cortical rhythms In: Neural Circuit Development and Function in the Healthy and Diseased Brain: Comprehensive Developmental Neuroscience (Eds Rubenstein and Rakic) Academic Press (Elsevier), 2013, Chapter 8,  P. 131-154
• Ph.D. dissertation by Guzel Valeeva, «Postsynaptic action of gamma-aminobutyric acid in the cortex of neonatal mice and rats», 2012

Tutorials

• Sitdikova G., Zakharov A. Physiology of the nervous system in ontogenesis.  E-lecture tutorial.
• Sitdikova G., Zakharov A. Structure and functions of ionic channels of excitable cage.
• Gerasimova E., Sitdikova G., Zakharov A. Physiology of the nervous system // Kazan: KFU, 2012 – 72 p
• Yakovlev A., Yakovleva O., Sitdikova G., Zakharov A. Physiology of the excitable systems, part , Kazan: KFU, 2012 – 47 p

Conferences

• International Symposium “Gasotransmitters: Physiology and Pathophysiology”, Kazan Medical School, Russia, September 21-23, 2014 (VIP participants - R.Wang (Canada), H. Kimura (Japan), A. Hermann (Austria), D. Lefer (USA), etc.)

• ХI  All-Russia scientific international conference « Physiological mechanisms of adaptation of the growing organism» , June 22-24, 2012, Kazan, Yalchik