Elevated dietary ω-6 polyunsaturated fatty acids induce reversible peripheral nerve dysfunction that exacerbates comorbid pain conditions.
Jacob T BoydPeter M LoCocoAshley R FurrMichelle R BendeleMeilinn TramQun LiFang-Mei ChangMadeline E ColleyGrace M SamenukDominic A ArrisErin E LockeStephan B H BachAlejandro TobonShivani B RuparelKenneth M HargreavesPublished in: Nature metabolism (2021)
Chronic pain is the leading cause of disability worldwide1 and is commonly associated with comorbid disorders2. However, the role of diet in chronic pain is poorly understood. Of particular interest is the Western-style diet, enriched with ω-6 polyunsaturated fatty acids (PUFAs) that accumulate in membrane phospholipids and oxidise into pronociceptive oxylipins3,4. Here we report that mice administered an ω-6 PUFA-enriched diet develop persistent nociceptive hypersensitivities, spontaneously active and hyper-responsive glabrous afferent fibres and histologic markers of peripheral nerve damage reminiscent of a peripheral neuropathy. Linoleic and arachidonic acids accumulate in lumbar dorsal root ganglia, with increased liberation via elevated phospholipase (PLA)2 activity. Pharmacological and molecular inhibition of PLA2G7 or diet reversal with high levels of ω-3 PUFAs attenuate nociceptive behaviours, neurophysiologic abnormalities and afferent histopathology induced by high ω-6 intake. Additionally, ω-6 PUFA accumulation exacerbates allodynia observed in preclinical inflammatory and neuropathic pain models and is strongly correlated with multiple pain indices of clinical diabetic neuropathy. Collectively, these data reveal dietary enrichment with ω-6 PUFAs as a new aetiology of peripheral neuropathy and risk factor for chronic pain and implicate multiple therapeutic considerations for clinical pain management.
Keyphrases
- chronic pain
- neuropathic pain
- pain management
- peripheral nerve
- spinal cord
- spinal cord injury
- weight loss
- physical activity
- oxidative stress
- multiple sclerosis
- type diabetes
- minimally invasive
- gene expression
- single cell
- drug delivery
- adipose tissue
- electronic health record
- south africa
- bone marrow
- machine learning
- fatty acid
- dna methylation
- big data
- wild type
- high fat diet induced