Alterations in DNA methylation associate with reduced migraine and headache days after medication withdrawal treatment in chronic migraine patients: a longitudinal study

One-Year and Five-Year Outcomes in Medication Overuse Headache: A Real-World Study

BACKGROUND

Medication overuse headache (MOH) is one of the global health-related problems that imposes significant morbidity. Effective management requires the abrupt cessation of the overused medications, transition therapy in the initial days, and initiation of preventive treatment. The objective of this study is to provide one-year and five-year follow-ups of study participants diagnosed with chronic migraine and MOH. The study will examine the efficacy of withdrawal therapy, the use of conventional preventive medication, and the use of anti-calcitonin gene-related peptide (anti-CGRP) monoclonal antibodies.

METHODOLOGY

We conducted a single-center, prospective, and descriptive study at a tertiary center in Brazil. The population was included by convenience sampling of consecutive subjects diagnosed with chronic migraine and MOH. Demographics and clinical data at baseline and one-year and five-year follow-ups were collected in the clinical records.

RESULTS

Among 142 subjects, 116 were females and 26 were males, with a mean age of 42.1±14.3. They were followed for five years. The diagnosis was performed at the mean age of 24.9±14.7 years after the headache onset, and the time with headache ≥15 days per month was 6.3±7.6 years. On baseline, the average number of headache days per month (HDM) was 25.2±5.9. There was a reduction in HDM. At one-year and five-year follow-ups, a ≥75% reduction in HDM was observed, respectively, in 51.4% and 70.4% of the sample.

CONCLUSIONS

The five-year follow-up of chronic migraine and MOH treated with the discontinuation of excessive medication, the use of preventative pharmacological agents, and the optional inclusion of anti-CGRP pathway monoclonal antibody led to a significant decrease in the initial occurrence of HDM.

Epigenetic Landscapes of Pain: DNA Methylation Dynamics in Chronic Pain

Chronic pain is a prevalent condition with a multifaceted pathogenesis, where epigenetic modifications, particularly DNA methylation, might play an important role. This review delves into the intricate mechanisms by which DNA methylation and demethylation regulate genes associated with nociception and pain perception in nociceptive pathways. We explore the dynamic nature of these epigenetic processes, mediated by DNA methyltransferases (DNMTs) and ten-eleven translocation (TET) enzymes, which modulate the expression of pro- and anti-nociceptive genes. Aberrant DNA methylation profiles have been observed in patients with various chronic pain syndromes, correlating with hypersensitivity to painful stimuli, neuronal hyperexcitability, and inflammatory responses. Genome-wide analyses shed light on differentially methylated regions and genes that could serve as potential biomarkers for chronic pain in the epigenetic landscape. The transition from acute to chronic pain is marked by rapid DNA methylation reprogramming, suggesting its potential role in pain chronicity. This review highlights the importance of understanding the temporal dynamics of DNA methylation during this transition to develop targeted therapeutic interventions. Reversing pathological DNA methylation patterns through epigenetic therapies emerges as a promising strategy for pain management.

Genetics of migraine: complexity, implications, and potential clinical applications

Migraine is a common neurological disorder with large burden in terms of disability for individuals and costs for society. Accurate diagnosis and effective treatments remain priorities. Understanding the genetic factors that contribute to migraine risk and symptom manifestation could improve individual management. Migraine has a strong genetic basis that includes both monogenic and polygenic forms. Some distinct, rare, familial migraine subtypes are caused by pathogenic variants in genes involved in ion transport and neurotransmitter release, suggesting an underlying vulnerability of the excitatory-inhibitory balance in the brain, which might be exacerbated by disruption of homoeostasis and lead to migraine. For more prevalent migraine subtypes, genetic studies have identified many susceptibility loci, implicating genes involved in both neuronal and vascular pathways. Genetic factors can also reveal the nature of relationships between migraine and its associated biomarkers and comorbidities and could potentially be used to identify new therapeutic targets and predict treatment response.