J Neurogastroenterol Motil.  2017 Jan;23(1):117-123. 10.5056/jnm16012.

Slow Wave Activity and Modulations in Mouse Jejunum Myenteric Plexus In Situ

Affiliations
  • 1Institute of Toxicology, College of Preventive Medicine, Third Military Medical University, Chongqing, China. dongzj@163.com

Abstract

BACKGROUND/AIMS
Myenteric plexus interstitial cells of Cajal (ICC-MY) are involved in the generation of gut pacemaker activity and neuronal communication. We performed patch clamp on ICC-MY in situ to observe the changes of pacemaker activity in response to neural modulations.
METHODS
A fresh longitudinal muscle with myenteric plexus (LMMP) from mouse jejunum was prepared. ICC-MY and ganglion neurons embedded in the layer of longitudinal muscles were targeted by patch clamping in whole-cell configuration in a model of current or voltage clamp. Neurogenic modulators were applied to evaluate their effects on ICC pacemaker activity.
RESULTS
In situ ICC-MY showed spontaneous and rhythmical voltage oscillations with a frequency of 27.2 ± 3.9 cycles/min, amplitude of 32.6 ± 6.3 mV, and resting membrane potential of −62.2 ± 2.8 mV. In situ neurons showed electrically evocable action potential in single or multiple spikes. Pacemaker activity was modulated by neuronal activators through receiving a neuronal input. Application of tetrodotoxin depolarized pacemaker potentials in a dose dependent manner, and decreased the amplitude at tetrodotoxin 0.3 μM for about 40 ± 10%; capsaicin (1 μM) ameliorated ICC-MY K+ current for about 49 ± 14.8%; and, nitric oxide hyperpolarized pacemaker potential and decreased the amplitude and frequency.
CONCLUSIONS
The in situ preparation patch clamp study further demonstrates that the pacemaker activity is an intrinsic property of ICC. The neurogenic activators change and shape pacemaker potential and activity in situ. LMMP preparation in situ patch clamp provides an ideal platform to study the functional innervation of the ICC and the enteric neural system, thereby, for evaluating the neural regulation of pacemaker activity, especially in disorder models.

Keyword

Enteric nervous system; In situ patch clamp; Interstitial cells of Cajal; Pacemaker activity

MeSH Terms

Action Potentials
Animals
Capsaicin
Constriction
Enteric Nervous System
Ganglion Cysts
Interstitial Cells of Cajal
Jejunum*
Membrane Potentials
Mice*
Muscles
Myenteric Plexus*
Neurons
Nitric Oxide
Tetrodotoxin
Capsaicin
Nitric Oxide
Tetrodotoxin
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