Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neuropeptide FF (FLFQPQRF-NH2), originally isolated from bovine brain, is an FMRF-NH2-like peptide with morphine-modulating activity. Neuropeptide FF (NPFF) is highly localized in the dorsal spinal cords where there are also specific NPFF binding sites. Furthermore, there have been studies indicating that NPFF may participate in the regulation of pain threshold in the spinal cord. However, whether NPFF can be released from the spinal cord is not known. The present experiments, using an in vitro superfusion of an isolated whole rat spinal cord, demonstrated that high concentrations of KCl or substance P caused a release of NPFF immunoreactive material (IR) from the spinal cord into the perfusion medium in a calcium-dependent manner. Substance P (1-11) also produced a detectable release of NPFF-IR in vivo although the response was quite variable. The released NPFF-IR was analyzed by an HPLC study and found to consist of NPFF and other minor immunoreactive peptides. Further studies with substance P-related peptides showed that the in vitro release of NPFF-IR could also be induced by substance P (1-7) but not by [pGlu5,Me-Phe8,Sar9]-substance P (5-11) or substance K. These results suggest that the specific substance P receptor (SP-N), which is recognized by both substance P (1-11) and substance P (1-7) rather than the tachykinin receptor, is involved in NPFF secretion from the spinal cord. In view of the role of substance P (1-11) and substance P (1-7) in sensory transmission, the results of this study further support the role of NPFF in the modulation of antinociception in the spinal cord.
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PMID:Release of neuropeptide FF (FLFQPQRF-NH2) from rat spinal cord. 128 May 19

Neuropeptide FF (NPFF) and neuropeptide AF (NPAF) are two mammalian amidated neuropeptides which are highly concentrated in the posterior pituitary, spinal cord, hypothalamus and medulla. One precursor protein has been identified in mouse, rat, bovine and human brain. The precursor contains a single copy of both peptides, followed by a glycine residues necessary for amidation and flanked by basic residues necessary for processing by enzymes. In the brain, NPFF-like immunoreactive neurons are found in the hypothalamus and medulla. These systems may be associated with observed effects of NPFF on memory and autonomic regulation, respectively. A hypothalamo-pituitary pathway may be involved in neuroendocrine regulation. This is supported by lack of NPFF in the pituitary gland of vasopressin-deficient Brattleboro rats. It is also possible that NPFF acts as a hormone, as it has been detected in human plasma. The spinal cord contains an intrinsic NPFF-ir neuron system, with cell bodies in the dorsal horn and around the central canal. Nerve terminals are highly concentrated in the superficial laminae of the dorsal horn, where NPFF-immunoreactivity can be released by, e.g., potassium and substance P. One specific high-affinity binding site, distinct from binding sites for other peptides, has been characterized in the rat and human brain and spinal cord. The NPFF receptor appears to be coupled to a G-protein, but details of the second messenger systems have not been clarified yet. Intracerebroventricular injection of NPFF induces a vigorous abstinence syndrome in morphine-tolerant rats. Although clear antiopioid-like effects of NPFF on pain have been observed, some studies have also demonstrated long-lasting analgesic effects. These findings and the observed increase in NPFF-immunoreactivity in the cerebrospinal fluid during development of opiate tolerance render NPFF an interesting and challenging target of investigation.
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PMID:Neuropeptide FF, a mammalian neuropeptide with multiple functions. 880 17

Neuropeptide FF (NPFF) is recognized as an opioid modulating peptide that regulates morphine-induced analgesia. The aim of this study was to delineate the role of NPFFR2 in pain transmission. We found the expression levels of NPFF and NPFFR2 were increased in the lumbar dorsal horn of animals with CFA- and carrageenan-induced inflammation and both NPFFR2 over-expressing transgenic (NPFFR2-Tg) and NPFFR2 agonist-treated mice displayed hyperalgesia. BOLD signals from functional MRI showed that NPFFR2-Tg mice exhibited increased activation of pain-related brain regions after painful stimulation when compared to WT mice. Inflammatory mediators within the spinal cord, calcitonin gene-related peptide (CGRP) and substance P (SP), were up-regulated in NPFFR2-Tg and chronic NPFFR2 agonist-treated mice. In DRG cultures, treatment with an NPFFR2 agonist induced the expression and release of CGRP, an action which was blocked by NPFFR2 siRNA. Furthermore, treatment with a CGRP antagonist ameliorated the pain hyperalgesia in NPFFR2-Tg mice, returning the pain threshold to a control level. However, treatment with a SP antagonist reduced the pain responses in both WT and NPFFR2-Tg mice and did not suppress pain hypersensitivity in NPFFR2-Tg mice. Together, these results demonstrate that NPFFR2 activation modulates pain transmission by up-regulating the pain mediator CGRP, leading to hyperalgesia.
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PMID:Activation of NPFFR2 leads to hyperalgesia through the spinal inflammatory mediator CGRP in mice. 2817 53