Labeled lines meet and talk: population coding of somatic sensations

Ma, Qiufu

doi:10.1172/jci43426

Cited by 142 publications

(136 citation statements)

References 107 publications

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“…This evidence for cross‐modal interaction and convergence at the spinal level is incompatible with the classic specificity theory (ie, of labeled lines), and is driving a paradigm shift in the way somatosensation is currently viewed. The emerging “population coding model” suggests that temperature and pain perception arises from the joint activity across several neuronal populations, rather than depending on neural signals of specific labeled lines, with 1 dominant line associated with each specific sensory quality 39, 40, 41, 42. Our experiments are consistent with the view that TGI perception is largely influenced by the pooled activity of spinal neurons within 1 or 2 spinal segments.…”

Section: Discussionsupporting

confidence: 87%

Organization of the Thermal Grill Illusion by Spinal Segments

Fardo

Finnerup

Haggard

2018

Annals of Neurology

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ObjectiveA common symptom of neuropathy is the misperception of heat and pain from cold stimuli. Similar cold allodynic sensations can be experimentally induced using the thermal grill illusion (TGI) in humans. It is currently unclear whether this interaction between thermosensory and nociceptive signals depends on spinal or supraspinal integration mechanisms. To address this issue, we developed a noninvasive protocol to assess thermosensory integration across spinal segments.MethodsWe leveraged anatomical knowledge regarding dermatomes and their spinal projections to investigate potential contributions of spinal integration to the TGI. We simultaneously stimulated a pair of skin locations on the arm or lower back using 1 cold (∼20°C) and 1 warm thermode (∼40°C). The 2 thermodes were always separated by a fixed physical distance on the skin, but elicited neural activity across a varying number of spinal segments, depending on which dermatomal boundaries the 2 stimuli spanned.ResultsParticipants consistently overestimated the actual cold temperature on the skin during combined cold and warm stimulation, confirming the TGI effect. The TGI was present when cold and warm stimuli were delivered within the same dermatome, or across dermatomes corresponding to adjacent spinal segments. In striking contrast, no TGI effect was found when cold and warm stimuli projected to nonadjacent spinal segments.InterpretationThese results demonstrate that the strength of the illusion is modulated by the segmental distance between cold and warm afferents. This suggests that both temperature perception and thermal–nociceptive interactions depend upon low‐level convergence mechanisms operating within a single spinal segment and its immediate neighbors. Ann Neurol 2018;84:463–472

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Section: Discussionsupporting

confidence: 87%

Organization of the Thermal Grill Illusion by Spinal Segments

Fardo

Finnerup

Haggard

2018

Annals of Neurology

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“…Subsequent genetic and pharmacological approaches were applied to confirm that STAT3 indeed positively regulates the expression of LDHB at transcriptional level. 5 Taking into account that STAT3 is a known downstream effector of mTORC1, 10 our data suggest that activated mTORC1 signaling upregulates LDHB through activation of STAT3 (Fig. 1).…”

mentioning

confidence: 72%

mTOR upregulation of glycolytic enzymes promotes tumor development

Zha¹,

Sun²,

Zhang³

2011

Cell Cycle

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“…Because c-Maf knock-out mice die within a few hours after birth, it will be of interest to generate c-Maf conditionally deficient mice and investigate whether the somatosensation is affected when c-Maf is deleted in the dorsal horn. Studies in the past century have suggested that the perception of specific sensory modalities might be best explained by the population-coding (also called selectivity) hypothesis (Ma, 2010). One important step in sensory biology is to better delineate the neuronal subtypes within the dorsal horn and characterize their physiological functions (Basbaum et …”

Section: Transcriptional Control Of Development Of Dorsal Horn Neuronsmentioning

confidence: 99%