Frontiers in Cellular Neuroscience (May 2018)

Neuronal Activation in the Periaqueductal Gray Matter Upon Electrical Stimulation of the Bladder

  • Céline Meriaux,
  • Céline Meriaux,
  • Ramona Hohnen,
  • Ramona Hohnen,
  • Sandra Schipper,
  • Sandra Schipper,
  • Sandra Schipper,
  • Aryo Zare,
  • Aryo Zare,
  • Ali Jahanshahi,
  • Ali Jahanshahi,
  • Ali Jahanshahi,
  • Lori A. Birder,
  • Yasin Temel,
  • Yasin Temel,
  • Yasin Temel,
  • Gommert A. van Koeveringe,
  • Gommert A. van Koeveringe,
  • Gommert A. van Koeveringe

DOI
https://doi.org/10.3389/fncel.2018.00133
Journal volume & issue
Vol. 12

Abstract

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Reflexes, that involve the spinobulbospinal pathway control both storage and voiding of urine. The periaqueductal gray matter (PAG), a pontine structure is part of the micturition pathway. Alteration in this pathway could lead to micturition disorders and urinary incontinence, such as the overactive bladder symptom complex (OABS). Although different therapeutic options exist for the management of OABS, these are either not effective in all patients. Part of the pathology of OABS is faulty sensory signaling about the filling status of the urinary bladder, which results in aberrant efferent signaling leading to overt detrusor contractions and the sensation of urgency and frequent voiding. In order to identify novel targets for therapy (i.e., structures in the central nervous system) and explore novel treatment modalities such as neuromodulation, we aimed at investigating which areas in the central nervous system are functionally activated upon sensory afferent stimulation of the bladder. Hence, we designed a robust protocol with multiple readout parameters including immunohistological and behavioral parameters during electrical stimulation of the rat urinary bladder. Bladder stimulation induced by electrical stimulation, below the voiding threshold, influences neural activity in: (1) the caudal ventrolateral PAG, close to the aqueduct; (2) the pontine micturition center and locus coeruleus; and (3) the superficial layers of the dorsal horn, sacral parasympathetic nucleus and central canal region of the spinal cord. In stimulated animals, a higher voiding frequency was observed but was not accompanied by increase in anxiety level and locomotor deficits. Taken together, this work establishes a critical role for the vlPAG in the processing of sensory information from the urinary bladder and urges future studies to investigate the potential of neuromodulatory approaches for urological diseases.

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