Quanzhi Hou scite author profile

Keratinocytes are implicated in sensory transduction and can influence nociception, but whether these contribute to chronic pain is not known. In neurons, voltage-gated sodium channels (Na(v)) are involved in neuropathic pain and are activated by depolarization. Since keratinocytes can also show changes in membrane potential, we used RT-PCR, in situ hybridization, and immunohistochemistry to investigate the expression of sodium channels in these cells. Na(v)1.1, Na(v)1.6, and Na(v)1.8 were localized within keratinocytes in rat epidermis. In addition, sodium channels contribute to the release of ATP from rat keratinocytes in response to increased [K(+)](o), implicating sodium channels in keratinocyte ligand release and nociception. To examine whether keratinocytes may contribute to human pain states, we analyzed sodium channel expression in human skin biopsies from subjects with complex regional pain syndrome Type 1 (CRPS) and post-herpetic neuralgia (PHN) using immunohistochemistry. Control skin exhibited immunolabeling for Na(v)1.5, Na(v)1.6 and Na(v)1.7. In contrast, painful skin from CRPS and PHN subjects displayed Na(v)1.1, Na(v)1.2, and Na(v)1.8 immunolabeling, in addition to substantially increased signal for Na(v)1.5, Na(v)1.6, Na(v)1.7. These observations lead us to propose that pathological increases in keratinocyte sodium channel expression may contribute to pain by increasing epidermal ATP release, resulting in excessive activation of P2X receptors on primary sensory axons. Consistent with this hypothesis, animal models of neuropathic pain exhibit increases in subcutaneous ATP release and activity of primary sensory neurons, and peripheral administration of P2X antagonists has been shown to reduce neuropathic pain in humans.

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Keratinocyte expression of calcitonin gene-related peptide β: Implications for neuropathic and inflammatory pain mechanisms

Hou

et al. 2011

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Calcitonin Gene-Related Peptide (CGRP) is a vasodilatory peptide that has been detected at high levels in the skin, blood, and cerebral spinal fluid under a variety of inflammatory and chronic pain conditions, presumably derived from peptidergic C and Aδ innervation. Herein, CGRP immunolabeling (IL) was detected in epidermal keratinocytes at levels that were especially high and widespread in the skin of humans from locations afflicted with postherpetic neuralgia (PHN) and complex region pain syndrome type 1 (CRPS), of monkeys infected with simian immunodeficiency virus, and of rats subjected to L5/L6 spinal nerve ligation, sciatic nerve chronic constriction, and subcutaneous injection of Complete Freund’s Adjuvant. Increased CGRP-IL was also detected in epidermal keratinocytes of transgenic mice with keratin-14 promoter driven overexpression of noggin, an antagonist to BMP-4 signaling. Transcriptome microarray, qPCR, and Western blot analyses using laser captured mouse epidermis from transgenics, monolayer cultures of human and mouse keratinocytes, and multilayer human keratinocyte organotypic cultures, revealed that keratinocytes express predominantly the beta isoform of CGRP. Cutaneous peptidergic innervation has been shown to express predominantly the alpha isoform of CGRP. Keratinocytes also express the cognate CGRP receptor components, CRLR, RAMP1, and RCP, consistent with known observations that CGRP promotes several functional changes in keratinocytes, including proliferation and cytokine production. Our results indicate that keratinocyte derived CGRPβ may modulate epidermal homeostasis through autocrine/paracrine signaling and may contribute to chronic pain under pathological conditions.

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Excessive Peptidergic Sensory Innervation of Cutaneous Arteriole-Venule Shunts (AVS) in the Palmar Glabrous Skin of Fibromyalgia Patients: Implications for Widespread Deep Tissue Pain and Fatigue

Albrecht¹,

Hou²,

Argoff

et al. 2013

Pain Med

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The excessive sensory innervation to the glabrous skin AVS is a likely source of severe pain and tenderness in the hands of FM patients. Importantly, glabrous AVS regulate blood flow to the skin in humans for thermoregulation and to other tissues such as skeletal muscle during periods of increased metabolic demand. Therefore, blood flow dysregulation as a result of excessive innervation to AVS would likely contribute to the widespread deep pain and fatigue of FM. SNRI compounds may provide partial therapeutic benefit by enhancing the impact of sympathetically mediated inhibitory modulation of the excess sensory innervation.

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Sensory perception and neuroanatomical structures in normal and grafted skin of burn survivors

Nedelec

Hou

Sohbi

et al. 2005

Burns

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Air-Stimulated ATP Release from Keratinocytes Occurs through Connexin Hemichannels

et al. 2013

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Cutaneous ATP release plays an important role in both epidermal stratification and chronic pain, but little is known about ATP release mechanisms in keratinocytes that comprise the epidermis. In this study, we analyzed ATP release from cultured human neonatal keratinocytes briefly exposed to air, a process previously demonstrated to trigger ATP release from these cells. We show that exposing keratinocytes to air by removing media for 15 seconds causes a robust, long-lasting ATP release. This air-stimulated ATP release was increased in calcium differentiated cultures which showed a corresponding increase in connexin 43 mRNA, a major component of keratinocyte hemichannels. The known connexin hemichannel inhibitors 1-octanol and carbenoxolone both significantly reduced air-stimulated ATP release, as did two drugs traditionally used as ABC transporter inhibitors (glibenclamide and verapamil). These same 4 inhibitors also prevented an increase in the uptake of a connexin permeable dye induced by air exposure, confirming that connexin hemichannels are open during air-stimulated ATP release. In contrast, activity of the MDR1 ABC transporter was reduced by air exposure and the drugs that inhibited air-stimulated ATP release had differential effects on this transporter. These results indicate that air exposure elicits non-vesicular release of ATP from keratinocytes through connexin hemichannels and that drugs used to target connexin hemichannels and ABC transporters may cross-inhibit. Connexins represent a novel, peripheral target for the treatment of chronic pain and dermatological disease.

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Quanzhi Hou

Voltage-gated sodium channel expression in rat and human epidermal keratinocytes: Evidence for a role in pain

Keratinocyte expression of calcitonin gene-related peptide β: Implications for neuropathic and inflammatory pain mechanisms

Excessive Peptidergic Sensory Innervation of Cutaneous Arteriole-Venule Shunts (AVS) in the Palmar Glabrous Skin of Fibromyalgia Patients: Implications for Widespread Deep Tissue Pain and Fatigue

Sensory perception and neuroanatomical structures in normal and grafted skin of burn survivors

Air-Stimulated ATP Release from Keratinocytes Occurs through Connexin Hemichannels

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