Neuropathic pain caused by miswiring and abnormal end organ targeting
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Neuropathic pain caused by miswiring and abnormal end organ targeting. / Gangadharan, Vijayan; Zheng, Hongwei; Taberner, Francisco J; Landry, Jonathan; Nees, Timo A; Pistolic, Jelena; Agarwal, Nitin; Männich, Deepitha; Benes, Vladimir; Helmstaedter, Moritz; Ommer, Björn; Lechner, Stefan G; Kuner, Thomas; Kuner, Rohini.
In: NATURE, Vol. 606, No. 7912, 06.2022, p. 137-145.Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review
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TY - JOUR
T1 - Neuropathic pain caused by miswiring and abnormal end organ targeting
AU - Gangadharan, Vijayan
AU - Zheng, Hongwei
AU - Taberner, Francisco J
AU - Landry, Jonathan
AU - Nees, Timo A
AU - Pistolic, Jelena
AU - Agarwal, Nitin
AU - Männich, Deepitha
AU - Benes, Vladimir
AU - Helmstaedter, Moritz
AU - Ommer, Björn
AU - Lechner, Stefan G
AU - Kuner, Thomas
AU - Kuner, Rohini
N1 - © 2022. The Author(s).
PY - 2022/6
Y1 - 2022/6
N2 - Nerve injury leads to chronic pain and exaggerated sensitivity to gentle touch (allodynia) as well as a loss of sensation in the areas in which injured and non-injured nerves come together1-3. The mechanisms that disambiguate these mixed and paradoxical symptoms are unknown. Here we longitudinally and non-invasively imaged genetically labelled populations of fibres that sense noxious stimuli (nociceptors) and gentle touch (low-threshold afferents) peripherally in the skin for longer than 10 months after nerve injury, while simultaneously tracking pain-related behaviour in the same mice. Fully denervated areas of skin initially lost sensation, gradually recovered normal sensitivity and developed marked allodynia and aversion to gentle touch several months after injury. This reinnervation-induced neuropathic pain involved nociceptors that sprouted into denervated territories precisely reproducing the initial pattern of innervation, were guided by blood vessels and showed irregular terminal connectivity in the skin and lowered activation thresholds mimicking low-threshold afferents. By contrast, low-threshold afferents-which normally mediate touch sensation as well as allodynia in intact nerve territories after injury4-7-did not reinnervate, leading to an aberrant innervation of tactile end organs such as Meissner corpuscles with nociceptors alone. Genetic ablation of nociceptors fully abrogated reinnervation allodynia. Our results thus reveal the emergence of a form of chronic neuropathic pain that is driven by structural plasticity, abnormal terminal connectivity and malfunction of nociceptors during reinnervation, and provide a mechanistic framework for the paradoxical sensory manifestations that are observed clinically and can impose a heavy burden on patients.
AB - Nerve injury leads to chronic pain and exaggerated sensitivity to gentle touch (allodynia) as well as a loss of sensation in the areas in which injured and non-injured nerves come together1-3. The mechanisms that disambiguate these mixed and paradoxical symptoms are unknown. Here we longitudinally and non-invasively imaged genetically labelled populations of fibres that sense noxious stimuli (nociceptors) and gentle touch (low-threshold afferents) peripherally in the skin for longer than 10 months after nerve injury, while simultaneously tracking pain-related behaviour in the same mice. Fully denervated areas of skin initially lost sensation, gradually recovered normal sensitivity and developed marked allodynia and aversion to gentle touch several months after injury. This reinnervation-induced neuropathic pain involved nociceptors that sprouted into denervated territories precisely reproducing the initial pattern of innervation, were guided by blood vessels and showed irregular terminal connectivity in the skin and lowered activation thresholds mimicking low-threshold afferents. By contrast, low-threshold afferents-which normally mediate touch sensation as well as allodynia in intact nerve territories after injury4-7-did not reinnervate, leading to an aberrant innervation of tactile end organs such as Meissner corpuscles with nociceptors alone. Genetic ablation of nociceptors fully abrogated reinnervation allodynia. Our results thus reveal the emergence of a form of chronic neuropathic pain that is driven by structural plasticity, abnormal terminal connectivity and malfunction of nociceptors during reinnervation, and provide a mechanistic framework for the paradoxical sensory manifestations that are observed clinically and can impose a heavy burden on patients.
KW - Animals
KW - Chronic Pain/physiopathology
KW - Hyperalgesia/physiopathology
KW - Mechanoreceptors/pathology
KW - Mice
KW - Neuralgia/physiopathology
KW - Nociceptors/pathology
KW - Skin/innervation
U2 - 10.1038/s41586-022-04777-z
DO - 10.1038/s41586-022-04777-z
M3 - SCORING: Journal article
C2 - 35614217
VL - 606
SP - 137
EP - 145
JO - NATURE
JF - NATURE
SN - 0028-0836
IS - 7912
ER -