Literature DB >> 26269551

Potassium currents dynamically set the recruitment and firing properties of F-type motoneurons in neonatal mice.

Félix Leroy1, Boris Lamotte d'Incamps2, Daniel Zytnicki2.   

Abstract

In neonatal mice, fast- and slow-type motoneurons display different patterns of discharge. In response to a long liminal current pulse, the discharge is delayed up to several seconds in fast-type motoneurons and their firing frequency accelerates. In contrast, slow-type motoneurons discharge immediately, and their firing frequency decreases at the beginning of the pulse. Here, we identify the ionic currents that underlie the delayed firing of fast-type motoneurons. We find that the firing delay is caused by a combination of an A-like potassium current that transiently suppresses firing on a short time scale and a slowly-inactivating potassium current that inhibits the discharge over a much longer time scale. We then show how these intrinsic currents dynamically shape the discharge threshold and the frequency-input function of fast-type motoneurons. These currents contribute to the orderly recruitment of motoneurons in neonates and might play a role in the postnatal maturation of motor units.
Copyright © 2015 the American Physiological Society.

Entities:  

Keywords:  functional properties; potassium currents; spinal motoneurons subtypes

Mesh:

Substances:

Year:  2015        PMID: 26269551      PMCID: PMC4579294          DOI: 10.1152/jn.00193.2015

Source DB:  PubMed          Journal:  J Neurophysiol        ISSN: 0022-3077            Impact factor:   2.714


  43 in total

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  8 in total

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