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Query: UMLS:C0085632 (
apathy
)
4,089
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Congenital
indifference
to pain (CIP) is a rare condition in which patients have severely impaired pain perception, but are otherwise essentially normal. We identified and collected DNA from individuals from nine families of seven different nationalities in which the affected individuals meet the diagnostic criteria for CIP. Using homozygosity mapping and haplotype sharing methods, we narrowed the CIP locus to chromosome 2q24-q31, a region known to contain a cluster of voltage-gated sodium channel genes. From these prioritized candidate sodium channels, we identified 10 mutations in the SCN9A gene encoding the sodium channel protein
Nav1.7
. The mutations completely co-segregated with the disease phenotype, and nine of these SCN9A mutations resulted in truncation and loss-of-function of the
Nav1.7
channel. These genetic data further support the evidence that
Nav1.7
plays an essential role in mediating pain in humans, and that SCN9A mutations identified in multiple different populations underlie CIP.
...
PMID:Loss-of-function mutations in the Nav1.7 gene underlie congenital indifference to pain in multiple human populations. 1747 Jan 32
Recent scientific advances have enhanced our understanding of the role voltage-gated sodium channels play in pain sensation. Human data on
Nav1.7
show that gain-of-function mutations lead to enhanced pain while loss-of-function mutations lead to Congenital
Indifference
to Pain. Pre-clinical data from knockouts, anti-sense oligonucleotides, and siRNA for Nav1.3, 1.7, 1.8, and 1.9 have also demonstrated that specific subtypes of voltage-gated sodium channels play a role in different types of pain signaling. In addition, recent reports show that CNS penetration by voltage-gated sodium channel blockers is not required for efficacy in pre-clinical pain models while others have reported that identification of subtype-selective small molecules is possible. All of these data are converging to suggest next generation sodium channel blockers may offer the potential for novel pain therapies in the future.
...
PMID:Sodium channels and nociception: recent concepts and therapeutic opportunities. 1796 52
Voltage-gated sodium channels have been implicated in acute and chronic neuropathic pain. Among subtypes,
Nav1.7
single mutations can cause congenital
indifference
to pain or chronic neuropathic pain syndromes, including paroxysmal ones. This channel is co-expressed with Nav1.8, which sustains the initial action potential; Nav1.3 is an embrionary channel which is expressed in neurons after injury, as in neuropathic conditions. Few studies are focused on the expression of these molecules in human tissues having chronic pain. Trigeminal neuralgia (TN) is an idiopathic paroxysmal pain treated with sodium channel blockers. The aim of this study was to investigate the expression of Nav1.3,
Nav1.7
and Nav1.8 by RT-PCR in patients with TN, compared to controls. The gingival tissue was removed from the correspondent trigeminal area affected. We found that
Nav1.7
was downregulated in TN (P=0.017) and Nav1.3 was upregulated in these patients (P=0.043). We propose a physiopathological mechanism for these findings. Besides vascular compression of TN, this disease might be also a channelopathy.
...
PMID:Abnormal expression of voltage-gated sodium channels Nav1.7, Nav1.3 and Nav1.8 in trigeminal neuralgia. 1969 81
We have utilized a novel application of human genetics, illuminating the important role that rare genetic disorders can play in the development of novel drugs that may be of relevance for the treatment of both rare and common diseases. By studying a very rare Mendelian disorder of absent pain perception, congenital
indifference
to pain, we have defined
Nav1.7
(endocded by SCN9A) as a critical and novel target for analgesic development. Strong human validation has emerged with SCN9A gain-of-function mutations causing inherited erythromelalgia (IEM) and paroxysmal extreme pain disorder, both Mendelian disorder of spontaneous or easily evoked pain. Furthermore, variations in the
Nav1.7
channel also modulate pain perception in healthy subjects as well as in painful conditions such as osteoarthritis and Parkinson disease. On the basis of this, we have developed a novel compound (XEN402) that exhibits potent, voltage-dependent block of
Nav1.7
. In a small pilot study, we showed that XEN402 blocks
Nav1.7
mediated pain associated with IEM thereby demonstrating the use of rare genetic disorders with mutant target channels as a novel approach to rapid proof-of-concept. Our approach underscores the critical role that human genetics can play by illuminating novel and critical pathways pertinent for drug discovery.
...
PMID:Human Mendelian pain disorders: a key to discovery and validation of novel analgesics. 2284 92
Clinical genetic studies have shown that loss of
Nav1.7
function leads to the complete loss of acute pain perception. The global deletion is reported lethal in mice, however, and studies of mice with promoter-specific deletions of
Nav1.7
have suggested that the role of
Nav1.7
in pain transduction depends on the precise form of pain. We developed genetic and animal husbandry strategies that overcame the neonatal-lethal phenotype and enabled construction of a global
Nav1.7
knockout mouse. Knockouts were anatomically normal, reached adulthood, and had phenotype wholly analogous to human congenital
indifference
to pain (CIP): compared to littermates, knockouts showed no defects in mechanical sensitivity or overall movement yet were completely insensitive to painful tactile, thermal, and chemical stimuli and were anosmic. Knockouts also showed no painful behaviors resulting from peripheral injection of nonselective sodium channel activators, did not develop complete Freund's adjuvant-induced thermal hyperalgesia, and were insensitive to intra-dermal histamine injection. Tetrodotoxin-sensitive sodium current recorded from cell bodies of isolated sensory neurons and the mechanically-evoked spiking of C-fibers in a skin-nerve preparation each were reduced but not eliminated in tissue from knockouts compared to littermates. Results support a role for
Nav1.7
that is conserved between rodents and humans and suggest several possibly translatable biomarkers for the study of
Nav1.7
-targeted therapeutics. Results further suggest that
Nav1.7
may retain its key role in persistent as well as acute forms of pain.
...
PMID:Global Nav1.7 knockout mice recapitulate the phenotype of human congenital indifference to pain. 2518 65
