Ada D. Young scite author profile

The inflammatory responses of resident central nervous system (CNS) cells are now known to play a critical role in the initiation and progression of an array of infectious and sterile neuroinflammatory disorders such as meningitis, encephalitis, Parkinson’s disease, Alzheimer’s disease and multiple sclerosis (MS). Regulating glial inflammatory responses in a timely manner is therefore critical in preserving normal CNS functions. The neuropeptide substance P is produced at high levels within the CNS and its selective receptor, the neurokinin 1 receptor (NK-1R), is abundantly expressed by neurons and is present on glial cell types including microglia and astrocytes. In addition to its functions as a neurotransmitter in the perception of pain and its essential role in gut motility, this tachykinin is widely recognized to exacerbate inflammation at peripheral sites including the skin, gastrointestinal tract and the lungs. Recently, a number of studies have identified a role for substance P and NK-1R interactions in neuroinflammation and described the ability of this neuropeptide to alter the immune functions of activated microglia and astrocytes. In this review article, we describe the expression of substance P and its receptor by resident CNS cells, and we discuss the ability of this neuropeptide to exacerbate the inflammatory responses of glia and immune cells that are recruited to the brain during neurodegenerative diseases. In addition, we discuss the available data indicating that the NK-1R-mediated augmentation of such responses appears to be detrimental during microbial infection and some sterile neurodegenerative disorders, and propose the repurposed use of NK-1R antagonists, of a type that are currently approved as anti-emetic and anti-anxiolytic agents, as an adjunct therapy to ameliorate the inflammatory CNS damage in these conditions.

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Neuropeptide release influences brain edema formation after diffuse traumatic brain injury

Vink

Young

Bennett

et al. 2003

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Human microglia and astrocytes constitutively express the neurokinin-1 receptor and functionally respond to substance P

Burmeister

Johnson

Chauhan

et al. 2017

J Neuroinflammation

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BackgroundThe tachykinin substance P (SP) is recognized to exacerbate inflammation at peripheral sites via its target receptor, neurokinin 1 receptor (NK-1R), expressed by leukocytes. More recently, SP/NK-1R interactions have been associated with severe neuroinflammation and neuronal damage. We have previously demonstrated that NK-1R antagonists can limit neuroinflammatory damage in a mouse model of bacterial meningitis. Furthermore, we have since shown that these agents can attenuate bacteria-induced neuronal and glial inflammatory mediator production in nonhuman primate (NHP) brain explants and isolated neuronal cells, and following in vivo infection.MethodsIn the present study, we have assessed the ability of NHP brain explants, primary human microglia and astrocytes, and immortalized human glial cell lines to express NK-1R isoforms. We have utilized RT-PCR, immunoblot analysis, immunofluorescent microscopy, and/or flow cytometric analysis, to quantify NK-1R expression in each, at rest, or following bacterial challenge. Furthermore, we have assessed the ability of human microglia to respond to SP by immunoblot analysis of NF-kB nuclear translocation and determined the ability of this neuropeptide to augment inflammatory cytokine release and neurotoxic mediator production by human astrocytes using an ELISA and a neuronal cell toxicity assay, respectively.ResultsWe demonstrate that human microglial and astrocytic cells as well as NHP brain tissue constitutively express robust levels of the full-length NK-1R isoform. In addition, we demonstrate that the expression of NK-1R by human astrocytes can be further elevated following exposure to disparate bacterial pathogens or their components. Importantly, we have demonstrated that NK-1R is functional in both human microglia and astrocytes and show that SP can augment the inflammatory and/or neurotoxic immune responses of glial cells to disparate and clinically relevant bacterial pathogens.ConclusionsThe robust constitutive and functional expression of the full-length NK-1R isoform by human microglia and astrocytes, and the ability of SP to augment inflammatory signaling pathways and mediator production by these cells, support the contention that SP/NK-1R interactions play a significant role in the damaging neuroinflammation associated with conditions such as bacterial meningitis.

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Exacerbation of human astrocyte inflammatory responses to bacterial pathogens by the neuropeptide substance P (MPF2P.742)

Young

Marriott

2015

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The neuropeptide substance P (SP) has increasingly been recognized to augment inflammatory immune responses. We have recently demonstrated that SP can significantly exacerbate the inflammatory responses of isolated murine glial cells to clinically relevant bacterial pathogens. Furthermore, we have shown that SP interactions with its receptor are an essential component in the initiation and/or progression of central nervous system (CNS) inflammation in in vivo mouse models of meningitis. In the present study, we demonstrate that SP similarly alters the inflammatory responses of human astrocytes to clinically relevant bacterial pathogens and their components. Specifically, we show that SP augments the production of inflammatory cytokines and the generation of nitric oxide by human astrocytes in response to Neisseria meningitidis. In addition, we showed that this effect is seen in astrocyte responses to the TLR4 ligand, LPS. However, such SP-mediated increases in inflammatory mediator production are not limited to TLR4 stimuli as human astrocyte responses to the disparate Gram-negative bacterial pathogen Borrelia burgdorferi, that does not express LPS, are also modulated in a dose and time dependent manner. Together, these results suggest that SP could play a significant role in the initiation and/or progression of bacterially induced CNS inflammation in humans in a similar manner to that previously seen in rodent models following infection.

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Ada D. Young

The Therapeutic Potential of Targeting Substance P/NK-1R Interactions in Inflammatory CNS Disorders

Neuropeptide release influences brain edema formation after diffuse traumatic brain injury

Human microglia and astrocytes constitutively express the neurokinin-1 receptor and functionally respond to substance P

Exacerbation of human astrocyte inflammatory responses to bacterial pathogens by the neuropeptide substance P (MPF2P.742)

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