Abstract
BackgroundDietary supplementation with methyl donors can influence the programming of epigenetic patterns resulting in persistent alterations in disease susceptibility and behavior. However, the dietary effects of methyl donors on pain have not been explored. In this study, we evaluated the effects of dietary methyl donor content on pain responses in mice.MethodsMale and female C57BL/6J mice were treated with high or low methyl donor diets either in the perinatal period or after weaning. Mechanical and thermal nociceptive sensitivity were measured before and after incision.ResultsMice fed high or low methyl donor diets displayed equal weight gain over the course of the experiments. When exposed to these dietary manipulations in the perinatal period, only male offspring of dams fed a high methyl donor diet displayed increased mechanical allodynia. Hindpaw incision in these animals caused enhanced nociceptive sensitization, but dietary history did not affect the duration of sensitization. For mice exposed to high or low methyl donor diets after weaning, no significant differences were observed in mechanical or thermal nociceptive sensitivity either at baseline or in response to hindpaw incision.ConclusionsPerinatal dietary factors such as methyl donor content may impact pain experiences in later life. These effects, however, may be specific to sex and pain modality.
Highlights
Epigenetic mechanisms (DNA methylation, histone modification and non-coding RNA regulation) include processes that lead to stable and/or heritable changes in gene function without concomitant changes in DNA sequence [1]
82 gene-associated loci were differently methylated in the offspring of dams fed high versus low methyl donor diets [5]
We aimed to investigate whether dietary methyl donor content would affect the nociceptive responses when given in the perinatal period or after weaning
Summary
Epigenetic mechanisms (DNA methylation, histone modification and non-coding RNA regulation) include processes that lead to stable and/or heritable changes in gene function without concomitant changes in DNA sequence [1] Both human and animal studies have demonstrated that dietary, lifestyle and other environmental factors influence epigenetic marks and processes which have important consequences on disease susceptibility and behavior [2]. 82 gene-associated loci were differently methylated in the offspring of dams fed high versus low methyl donor diets [5]. In these experiments changes in DNA methylation caused aberrant gene transcription and enhanced the severity of allergic airway disease in the offspring [5]. We evaluated the effects of dietary methyl donor content on pain responses in mice
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