Abstract

This paper shows that spontaneous network activity is present in a neuronal–glial network in the form of patterns that have the same character of the oscillations and synchronous switching of the generation regimes of all the patterns by recording the fluorescence of specific indicators for visualizing the dynamics of the calcium oscillations in cell cultures and culture sections of the hippocampus of the brain.

© 2012 OSA

PDF Article

References

  • View by:
  • |
  • |
  • |

  1. I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).
  2. Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).
  3. M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
    [CrossRef] [PubMed]
  4. A. Nimmerjahn, F. Kirchhoff, J. N. Kerr, and F. Heimchen, “Sulforhodamine 101 as a specific marker of astroglia in the neocortex in vivo,” Nat. Methods 1, 31 (2004).
    [CrossRef] [PubMed]
  5. A. S. Pimashkin, A. A. Lebedinskiĭ, and A. V. Sem’yanov, “Using mathematical models to determine the reliability of the differences of the parameters in dynamic biological systems,” Vestn. NNGU. Biol. No. 2, 51 (2010).
  6. S. J. Mulligan and B. A. MacViar, “Monitoring intracellular Ca2+ in brain slices with fluorescent indicators,” in Voltage-Gated Calcium Channels (Eurecan.com and Kluwer Academic/Plenum Publishers, 2005).

2011 (1)

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

2010 (1)

A. S. Pimashkin, A. A. Lebedinskiĭ, and A. V. Sem’yanov, “Using mathematical models to determine the reliability of the differences of the parameters in dynamic biological systems,” Vestn. NNGU. Biol. No. 2, 51 (2010).

2009 (1)

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

2008 (1)

M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
[CrossRef] [PubMed]

2004 (1)

A. Nimmerjahn, F. Kirchhoff, J. N. Kerr, and F. Heimchen, “Sulforhodamine 101 as a specific marker of astroglia in the neocortex in vivo,” Nat. Methods 1, 31 (2004).
[CrossRef] [PubMed]

Etzler, J. C.

M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
[CrossRef] [PubMed]

Heimchen, F.

A. Nimmerjahn, F. Kirchhoff, J. N. Kerr, and F. Heimchen, “Sulforhodamine 101 as a specific marker of astroglia in the neocortex in vivo,” Nat. Methods 1, 31 (2004).
[CrossRef] [PubMed]

Kalintseva, Ya. I.

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

Kazantsev, V. B.

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

Kazantsev, V. B.

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Kerr, J. N.

A. Nimmerjahn, F. Kirchhoff, J. N. Kerr, and F. Heimchen, “Sulforhodamine 101 as a specific marker of astroglia in the neocortex in vivo,” Nat. Methods 1, 31 (2004).
[CrossRef] [PubMed]

Khaspekov, L. G.

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Kirchhoff, F.

A. Nimmerjahn, F. Kirchhoff, J. N. Kerr, and F. Heimchen, “Sulforhodamine 101 as a specific marker of astroglia in the neocortex in vivo,” Nat. Methods 1, 31 (2004).
[CrossRef] [PubMed]

Korotchenko, S. A.

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Koryagina, E. A.

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Lebedinskii, A. A.

A. S. Pimashkin, A. A. Lebedinskiĭ, and A. V. Sem’yanov, “Using mathematical models to determine the reliability of the differences of the parameters in dynamic biological systems,” Vestn. NNGU. Biol. No. 2, 51 (2010).

Lechleiter, J. D.

M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
[CrossRef] [PubMed]

MacViar, B. A.

S. J. Mulligan and B. A. MacViar, “Monitoring intracellular Ca2+ in brain slices with fluorescent indicators,” in Voltage-Gated Calcium Channels (Eurecan.com and Kluwer Academic/Plenum Publishers, 2005).

Mitroshina, E. V.

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Mukhina, I. V.

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Mulligan, S. J.

S. J. Mulligan and B. A. MacViar, “Monitoring intracellular Ca2+ in brain slices with fluorescent indicators,” in Voltage-Gated Calcium Channels (Eurecan.com and Kluwer Academic/Plenum Publishers, 2005).

Nimmerjahn, A.

A. Nimmerjahn, F. Kirchhoff, J. N. Kerr, and F. Heimchen, “Sulforhodamine 101 as a specific marker of astroglia in the neocortex in vivo,” Nat. Methods 1, 31 (2004).
[CrossRef] [PubMed]

Paredes, M.

M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
[CrossRef] [PubMed]

Pimashkin, A. S.

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

A. S. Pimashkin, A. A. Lebedinskiĭ, and A. V. Sem’yanov, “Using mathematical models to determine the reliability of the differences of the parameters in dynamic biological systems,” Vestn. NNGU. Biol. No. 2, 51 (2010).

Potanina, A. V.

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

Sem’yanov, A. V.

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

A. S. Pimashkin, A. A. Lebedinskiĭ, and A. V. Sem’yanov, “Using mathematical models to determine the reliability of the differences of the parameters in dynamic biological systems,” Vestn. NNGU. Biol. No. 2, 51 (2010).

Vedunova, M. V.

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Watts, L. T.

M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
[CrossRef] [PubMed]

Zakharov, Yu. N.

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Zheng, W.

M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
[CrossRef] [PubMed]

Methods (1)

M. Paredes, J. C. Etzler, L. T. Watts, W. Zheng, and J. D. Lechleiter, “Chemical calcium indicators,” Methods 46, 143 (2008).
[CrossRef] [PubMed]

Nat. Methods (1)

A. Nimmerjahn, F. Kirchhoff, J. N. Kerr, and F. Heimchen, “Sulforhodamine 101 as a specific marker of astroglia in the neocortex in vivo,” Nat. Methods 1, 31 (2004).
[CrossRef] [PubMed]

Sovrem. Tekhnol. Med. (1)

I. V. Mukhina, V. B. Kazantsev, L. G. Khaspekov, Yu. N. Zakharov, M. V. Vedunova, E. V. Mitroshina, S. A. Korotchenko, and E. A. Koryagina, “Multielectrode arrays—new possibilities in the study of the plasticity of a neural network,” Sovrem. Tekhnol. Med. No. 1, 8 (2009).

Vesnt. Mosk. Univ., Ser. 16: Biol. (1)

Ya. I. Kalintseva, A. V. Potanina, A. S. Pimashkin, I. V. Mukhina, V. B. Kazantsev, Yu. N. Zakharov, and A. V. Sem’yanov, “Spontaneous and glutamate-induced calcium astrocyte activity in culture sections of the rat hippocampus,” Vesnt. Mosk. Univ., Ser. 16: Biol. No. 2, 13 (2011).

Vestn. NNGU. Biol. (1)

A. S. Pimashkin, A. A. Lebedinskiĭ, and A. V. Sem’yanov, “Using mathematical models to determine the reliability of the differences of the parameters in dynamic biological systems,” Vestn. NNGU. Biol. No. 2, 51 (2010).

Other (1)

S. J. Mulligan and B. A. MacViar, “Monitoring intracellular Ca2+ in brain slices with fluorescent indicators,” in Voltage-Gated Calcium Channels (Eurecan.com and Kluwer Academic/Plenum Publishers, 2005).

Cited By

OSA participates in CrossRef's Cited-By Linking service. Citing articles from OSA journals and other participating publishers are listed here.

Alert me when this article is cited.