NK1 receptor and the ventral medulla of the rat: bulbospinal and catecholaminergic neurons

Makeham, John M.; Goodchild, Ann K.; Pilowsky, Paul M.

doi:10.1097/00001756-200112040-00012

Cited by 24 publications

(19 citation statements)

References 23 publications

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“…(e) Other peptides As noted earlier, many other peptides play an important role in the tonic and reflex regulation of the cardiorespiratory systems, including substance P (Gilbey et al 1983;Makeham et al 2001Makeham et al , 2005, pituitary adenylate cyclase-activating polypeptide (PACAP; Farnham et al 2008), somatostatin (Burke et al 2008), galanin (Stornetta et al 2009;figure 2b), which is present in many chemosensitive neurons in the retrotrapezoid nucleus, and thyrotropin-releasing hormone (Murphy et al 1995;Sun et al 1995Sun et al , 1996. The effects of these neuromodulators are site specific and in most cases their physiology is still very poorly understood.…”

Section: Peptides In Cardiorespiratory Regulationmentioning

confidence: 98%

Differential regulation of the central neural cardiorespiratory system by metabotropic neurotransmitters

Pilowsky

Lung

Spirovski

et al. 2009

Phil. Trans. R. Soc. B

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Central neurons in the brainstem and spinal cord are essential for the maintenance of sympathetic tone, the integration of responses to the activation of reflexes and central commands, and the generation of an appropriate respiratory motor output. Here, we will discuss work that aims to understand the role that metabotropic neurotransmitter systems play in central cardiorespiratory mechanisms. It is well known that blockade of glutamatergic, gamma-aminobutyric acidergic and glycinergic pathways causes major or even complete disruption of cardiorespiratory systems, whereas antagonism of other neurotransmitter systems barely affects circulation or ventilation. Despite the lack of an 'all-or-none' role for metabotropic neurotransmitters, they are nevertheless significant in modulating the effects of central command and peripheral adaptive reflexes. Finally, we propose that a likely explanation for the plethora of neurotransmitters and their receptors on cardiorespiratory neurons is to enable differential regulation of outputs in response to reflex inputs, while at the same time maintaining a tonic level of sympathetic activity that supports those organs that significantly autoregulate their blood supply, such as the heart, brain, retina and kidney. Such an explanation of the data now available enables the generation of many new testable hypotheses.

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Section: Peptides In Cardiorespiratory Regulationmentioning

confidence: 98%

Differential regulation of the central neural cardiorespiratory system by metabotropic neurotransmitters

Pilowsky

Lung

Spirovski

et al. 2009

Phil. Trans. R. Soc. B

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“…It should be acknowledged, however, that while NK1 receptive neurons are prominent in the preBötC, they are also prevalent in numerous other structures in ventrolateral medulla (Fig. 4) including the BötC (see above), and on a subset (~ 5%) of the sympathoexcitatory C1 bulbospinal neurons in the ventrolateral medulla (Makeham et al, 2001). NK1 receptors are also colocalized on chemosensitive glutamatergic neurons in the RTN (see below) and a loss of these NK1 receptor positive RTN neurons appears to result from induced mutations in the Phox2B transcription factors that mimic those occurring in patients with congenital central hypoventilation syndrome (CCHS).…”

Section: 0 the Ventral Respiratory Column; Serial Respiratory Compamentioning

confidence: 99%

The chemical neuroanatomy of breathing

Alheid

McCrimmon

2008

Respiratory Physiology & Neurobiology

178

153

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The chemical neuroanatomy of breathing must ultimately encompass all the various neuronal elements physiologically identified in brainstem respiratory circuits and their apparent aggregation into “compartments” within the medulla and pons. These functionally defined respiratory compartments in the brainstem provide the major source of input to cranial motoneurons controlling the airways, and to spinal motoneurons activating inspiratory and expiratory pump muscles. This review provides an overview of the neuroanatomy of the major compartments comprising brainstem respiratory circuits, and a synopsis of the transmitters used by their constituent respiratory neurons.

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“…Directly adjacent in the rostral most part of the rVRG and sometimes overlapping the preBötC are large I-AUG neurons with direct projections to the phrenic motor nucleus. A fraction of these neurons are also NK1-R immunoreactive (Makeham et al, 2001; Guyenet et al, 2002) and glutamatergic (Guyenet et al, 2002) and some co-express pre-pro-enkephalin (Stornetta et al, 2003b). This data reinforces the report by Gray et al (1999) that the population of NK1-R neurons in the preBötC /rVRG area is heterogeneous.…”

Section: Brainstem Respiratory Areas With Identified Major Ionotromentioning

confidence: 99%

Identification of neurotransmitters and co-localization of transmitters in brainstem respiratory neurons

Stornetta

2008

Respiratory Physiology & Neurobiology

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Identifying the major ionotropic neurotransmitter in a respiratory neuron is of critical importance in determining how the neuron fits into the respiratory system, whether in producing or modifying respiratory drive and rhythm. There are now several groups of respiratory neurons whose major neurotransmitters have been identified and in some of these cases, more than one transmitter have been identified in particular neurons. This review will describe the physiologically identified neurons in major respiratory areas that have been phenotyped for major ionotropic transmitters as well as those where more than one transmitter has been identified. Although the purpose of the additional transmitter has not been elucidated for any of the respiratory neurons, some examples from other systems will be discussed.

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NK1 receptor and the ventral medulla of the rat: bulbospinal and catecholaminergic neurons

Cited by 24 publications

References 23 publications

Differential regulation of the central neural cardiorespiratory system by metabotropic neurotransmitters

Differential regulation of the central neural cardiorespiratory system by metabotropic neurotransmitters

The chemical neuroanatomy of breathing

Identification of neurotransmitters and co-localization of transmitters in brainstem respiratory neurons

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