Experts Gather in Montreal to Develop International Research Agenda on Myalgic Encephalomyelitis/Chronic Fatigue Syndrome

MONTREALApril 25, 2018 /PRNewswire/ – International experts will participate in the first-ever Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) Canadian Collaborative Team Conference on May 3–5, 2018 at CHU Sainte-Justine.  The conference will bring together 250 researchers and healthcare professionals from various disciplines to develop an international research agenda for this debilitating disease, for which there is no known cause or effective treatment.

“I am extremely encouraged by the interest shown by leading researchers and clinicians, who recognize the importance of establishing research priorities that will advance our understanding of ME/CFS and identify new strategies for treating patients,” says Dr. Alain Moreau, Head, Viscogliosi Laboratory in Molecular Genetics of Musculoskeletal Diseases, CHU Sainte-Justine Research Center and Scientific Chair of the Conference.

The conference will focus on:

  • Methods to properly diagnose patients with ME/CFS;
  • The role of biomarkers in diagnosing ME/CFS;
  • Benefits of establishing a biobank to advance research;
  • Ways to improve clinical care for ME/CFS patients; and
  • How to initiate, support, sustain and advance research on ME/CFS.

“There is an urgent need to get to the bottom of this devastating disease. To do this, we need many people looking at it from different perspectives and sharing as many ideas as possible so that we are better able to understand ME/CFS at the molecular level,” explains Dr. Ronald Davis, Professor, Biochemistry and Genetics and Director, Stanford Genome Technology Center.

Speakers include Dr. Jonas Bergquist, Professor, Uppsala UniversityDr. Alison C. Bested, Clinical Director, Institute for Neuro-Immune Medicine at Nova Southeastern UniversityDr. Peter Rowe, Director, Children’s Center Chronic Fatigue Clinic, Johns Hopkins UniversityDr. Eleonor Stein, Clinical Assistant Professor, Department of Psychiatry, University of Calgary; and Dr. Derya Unutmaz, Professor, The Jackson Laboratory.

The conference is made possible through the support of the Canadian Institutes of Health Research and other partners.

Myalgic Encephalomyelitis/Chronic Fatigue Syndrome
While severe chronic fatigue is one well-known symptom, ME/CFS affects a person’s cognitive and physical abilities and primarily strikes the neurological, endocrine and immune systems. A 2015 Statistics Canada unpublished Canadian Community Health Survey (CCHS) reports that just over 560,000 patients were diagnosed with ME/CFS, an increase of 37.6% from 2014.  In Quebec, tens of thousands of individuals are affected. ME/CFS is recognized by the World Health Organization.

To view the program, click here.

Integration of DNA methylation & health scores identifies subtypes in myalgic encephalomyelitis/chronic fatigue syndrome

Abstract:

AIM: To identify subtypes in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) based on DNA methylation profiles and health scores.

METHODS: DNA methylome profiles in immune cells were integrated with symptomatology from 70 women with ME/CFS using similarity network fusion to identify subtypes.

RESULTS: We discovered four ME/CFS subtypes associated with DNA methylation modifications in 1939 CpG sites, three RAND-36 categories and five DePaul Symptom Questionnaire measures. Methylation patterns of immune response genes and differences in physical functioning and postexertional malaise differentiated the subtypes.

CONCLUSION: ME/CFS subtypes are associated with specific DNA methylation differences and health symptomatology and provide additional evidence of the potential relevance of metabolic and immune differences in ME/CFS with respect to specific symptoms.

Source: de Vega WC, Erdman L, Vernon SD, Goldenberg A, McGowan PO. Integration of DNA methylation & health scores identifies subtypes in myalgic encephalomyelitis/chronic fatigue syndrome. Epigenomics. 2018 Apr 25. doi: 10.2217/epi-2017-0150. [Epub ahead of print] https://www.ncbi.nlm.nih.gov/pubmed/29692205

Circulating extracellular vesicles as potential biomarkers in chronic fatigue syndrome/myalgic encephalomyelitis: an exploratory pilot study

Abstract:

Chronic Fatigue Syndrome (CFS), also known as Myalgic Encephalomyelitis (ME) is an acquired, complex and multisystem condition of unknown etiology, no established diagnostic lab tests and no universally FDA-approved drugs for treatment. CFS/ME is characterised by unexplicable disabling fatigue and is often also associated with numerous core symptoms. A growing body of evidence suggests that extracellular vesicles (EVs) play a role in cell-to-cell communication, and are involved in both physiological and pathological processes. To date, no data on EV biology in CFS/ME are as yet available.

The aim of this study was to isolate and characterise blood-derived EVs in CFS/ME. Blood samples were collected from 10 Spanish CFS/ME patients and 5 matched healthy controls (HCs), and EVs were isolated from the serum using a polymer-based method. Their protein cargo, size distribution and concentration were measured by Western blot and nanoparticle tracking analysis. Furthermore, EVs were detected using a lateral flow immunoassay based on biomarkers CD9 and CD63.

We found that the amount of EV-enriched fraction was significantly higher in CFS/ME subjects than in HCs (p = 0.007) and that EVs were significantly smaller in CFS/ME patients (p = 0.014). Circulating EVs could be an emerging tool for biomedical research in CFS/ME. These findings provide preliminary evidence that blood-derived EVs may distinguish CFS/ME patients from HCs. This will allow offer new opportunities and also may open a new door to identifying novel potential biomarkers and therapeutic approaches for the condition.

Source: Castro-Marrero J, Serrano-Pertierra E, Oliveira-Rodríguez M, Zaragozá MC, Martínez-Martínez A, Blanco-López MDC, Alegre J. Circulating extracellular vesicles as potential biomarkers in chronic fatigue syndrome/myalgic encephalomyelitis: an exploratory pilot study. J Extracell Vesicles. 2018 Mar 22;7(1):1453730. doi: 10.1080/20013078.2018.1453730. eCollection 2018. https://www.ncbi.nlm.nih.gov/pubmed/29696075

Are probiotic treatments useful on fibromyalgia syndrome or chronic fatigue syndrome patients? A systematic review

Abstract:

Evidence suggests that the gut microbiota might play an important role in fibromyalgia syndrome (FMS) and chronic fatigue syndrome (CFS). Our goal is to systematically review the reported effect of probiotic treatments in patients diagnosed with FMS or CFS. A systematic review was carried out using 14 databases (PubMed, Cochrane Library, Scopus, PsycINFO, and others) in February 2016 to search for randomised controlled trials (RCTs) and pilot studies of CFS or FMS patient, published in the last ten years (from 2006 to 2016). The Jadad scale was used to asseverate the quality of the clinical trials considered.

Two studies (n=83) met the inclusion criteria, which were performed in CFS patients and both studies were considered as a ‘High range of quality score’. The administration of Lactobacillus casei strain Shirota in CFS patients, over the course of 8 weeks, reduced anxiety scores. Likewise, this probiotic changed the faecal composition following 8 weeks of treatment. Additionally, the treatment with Bifidobacterium infantis 35624 in CFS patients, during the same period, reduced inflammatory biomarkers.

The evidence about the usefulness of probiotics in CFS and FMS patients remains limited. The studied strains of probiotics have demonstrated a significant effect on modulating the anxiety and inflammatory processes in CFS patients. However, more experimental research, focusing mainly on the symptoms of the pathologies studied, is needed.

Source: Roman P, Carrillo-Trabalón F, Sánchez-Labraca N, Cañadas F, Estévez AF, Cardona D. Are probiotic treatments useful on fibromyalgia syndrome or chronic fatigue syndrome patients? A systematic review.  Benef Microbes. 2018 Apr 26:1-10. doi: 10.3920/BM2017.0125. [Epub ahead of print]  https://www.ncbi.nlm.nih.gov/pubmed/29695180

Research Volunteers’ Attitudes Toward Chronic Fatigue Syndrome and Myalgic Encephalomyelitis

Abstract:

Myalgic Encephalomyelitis (ME) and Chronic Fatigue Syndrome (CFS) are stigmatizing illnesses characterized by cognitive difficulties, post-exertional malaise, unrefreshing sleep, and other symptoms. Patients are often incapacitated and stigmatized as having a psychological disorder.

The Chronic Fatigue Attitudes Test (CAT) assesses stigmatizing views toward individuals with Chronic Fatigue Syndrome, however, there is little research examining factors that may account for variation in stigmatizing attitudes toward this group. We examined CAT scores among college age research volunteers (N = 90), hypothesizing that exposure to information about ME and CFS as a result of volunteering on a ME and CFS-related research project would be associated with less stigmatizing attitudes compared to volunteers on unrelated projects.

Findings indicated that ME and CFS research volunteers expressed less stigmatizing attitudes. Educational efforts aiming to disseminate accurate information about ME and CFS may mitigate stigma and the experience of stigma among individuals with ME and CFS.

Source: Nehrke PI, Fox PA, Jason LA. Research Volunteers’ Attitudes Toward Chronic Fatigue Syndrome and Myalgic Encephalomyelitis. Neurology (ECronicon). 2017;7(4):172-178. Epub 2017 Aug 16.  https://www.ncbi.nlm.nih.gov/pubmed/29662969

Abnormal rheological properties of red blood cells as a potential marker of Gulf War Illness: A preliminary study

Editor’s comment: In the 1980s, L. O. Simpson studied abnormally shaped red blood cells in patients with ME, which he published in a paper, “Nondiscocyte Erythrocytes in Myalgic Encephalomyelitis.” He later summarized his findings in a paper entitled “The Results from Red Cell Shape Analyses of Blood Samples From Members of Myalgic Encephalomyelitis Organisations in Four Countries.” You can read it HERE.

Abstract:

BACKGROUND: Veterans with Gulf War Illness (GWI) experience chronic symptoms that include fatigue, pain, and cognitive impairment. This symptom cluster may be the consequence of impaired tissue oxygen delivery due to red blood cell (RBC) dysfunction.

OBJECTIVE: The purpose of this preliminary study was to determine whether the microrheological behavior of RBCs is altered in GWI.

METHODS: We recruited 17 cases of GWI (GWI+) and 10 age matched controls (GWI-), and examined RBC deformability and aggregation via ektacytometry along with measurement of complete blood counts.

RESULTS: RBCs were more deformable in GWI+, as indicated by higher elongation indices particularly at higher shear stress values (5.33, 9.49, and 16.89) when compared to GWI-. Aggregation formation, stability and kinetics were similar between GWI+and GWI-. Complete blood counts were also similar, with the exception of mean corpuscular hemoglobin (MCH), mean corpuscular hemoglobin concentration (MCHC), and RBC distribution width (RDW) which was elevated in GWI+.

CONCLUSIONS: In this preliminary study, we observed increased deformability along with increased MCH, MCHC and RDW in veterans with GWI+, which may contribute to the symptomatology of GWI. Further research is required to confirm our findings and the role of RBC microrheology in GWI.

Source: Falvo MJ, Chen Y, Klein JC, Ndirangu D, Condon MR. Abnormal rheological properties of red blood cells as a potential marker of Gulf War Illness: A preliminary study. Clin Hemorheol Microcirc. 2018;68(4):361-370. doi: 10.3233/CH-170262. https://www.ncbi.nlm.nih.gov/pubmed/29660926

Metabolic abnormalities in chronic fatigue syndrome/myalgic encephalomyelitis: a mini-review

Abstract:

Chronic fatigue syndrome (CFS), commonly known as myalgic encephalomyelitis (ME), is a debilitating disease of unknown etiology. CFS/ME is a heterogeneous disease associated with a myriad of symptoms but with severe, prolonged fatigue as the core symptom associated with the disease. There are currently no known biomarkers for the disease, largely due to the lack of knowledge surrounding the eitopathogenesis of CFS/ME. Numerous studies have been conducted in an attempt to identify potential biomarkers for the disease.

This mini-review offers a brief summary of current research into the identification of metabolic abnormalities in CFS/ME which may represent potential biomarkers for the disease. The progress of research into key areas including immune dysregulation, mitochondrial dysfunction, 5′-adenosine monophosphate-activated protein kinase activation, skeletal muscle cell acidosis, and metabolomics are presented here. Studies outlined in this mini-review show many potential causes for the pathogenesis of CFS/ME and identify many potential metabolic biomarkers for the disease from the aforementioned research areas.

The future of CFS/ME research should focus on building on the potential biomarkers for the disease using multi-disciplinary techniques at multiple research sites in order to produce robust data sets. Whether the metabolic changes identified in this mini-review occur as a cause or a consequence of the disease must also be established.

Source: Cara Tomas; Julia Newton. Metabolic abnormalities in chronic fatigue syndrome/myalgic encephalomyelitis: a mini-review. Biochemical Society Transactions Apr 17, 2018; DOI: https://doi.org/10.1042/BST20170503. http://www.biochemsoctrans.org/content/early/2018/04/16/BST20170503

KPAX002 as a treatment for Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS): a prospective, randomized trial

Abstract:

Mitochondrial dysfunction and a hypometabolic state are present in patients with Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS). KPAX002 consists of low-dose methylphenidate hydrochloride to treat a hypometabolic state combined with key micronutrients intended to broadly support mitochondrial function.

The objective of this study was to evaluate KPAX002 as a treatment for fatigue and concentration disturbance symptoms in ME/CFS subjects. This phase 2 randomized, double-blinded, placebo-controlled trial was conducted at 4 sites in the United States. A total of 135 subjects with ME/CFS were randomly assigned to either KPAX002 (n=67) or placebo (n=68) for 12 weeks of treatment. The primary endpoint was change in the Checklist Individual Strength (CIS) total score from baseline to Week 12. Secondary measurements included visual analog scales for fatigue and concentration disturbance symptoms.

In the intent-to-treat population, the mean reduction in the CIS total score from baseline to week 12 for the KPAX002 and placebo groups was -16.9 (± 23.52) and -13.8 (± 22.15), respectively (95% confidence interval, -11.1, 4.0; P=0.359). On the visual analog scale for fatigue, the mean reduction from baseline to week 12 was -18.2 mm (± 25.05) and -11.1 mm (± 22.08) for the KPAX002 and placebo groups, respectively (95% confidence interval, -11.5, 2.3; P=0.189). The two groups demonstrating the most robust response to KPAX002 were subjects with more severe ME/CFS symptoms at baseline (P=0.086) and subjects suffering from both fatigue and pain (P=0.057). The incidence of adverse events was not statistically different between the two groups.

Treatment with KPAX002 resulted in a reduction in fatigue and concentration disturbance symptoms in multiple analyses. Two key subgroups of patients whose response approached statistical significance were identified.

Source: Jose G Montoya, Jill N Anderson, Danya L Adolphs, Lucinda Bateman, Nancy Klimas, Susan M Levine, Donn W Garvert, Jon D Kaiser. KPAX002 as a treatment for Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS): a prospective, randomized trial. Int J Clin Exp Med 2018;11(3):2890-2900 www.ijcem.com /ISSN:1940-5901/IJCEM0065685 (Full article)

Pharmacological activation of AMPK and glucose uptake in cultured human skeletal muscle cells from patients with ME/CFS

Abstract:

Background: Skeletal muscle fatigue and post-exertional malaise are key symptoms of Myalgic Encephalomyelitis (ME/CFS). We have previously shown that AMPK activation and glucose uptake are impaired in primary human skeletal muscle cell cultures derived from patients with ME/CFS in response to electrical pulse stimulation, a method which induces contraction of muscle cells in vitro. The aim of this study was to assess if AMPK could be activated pharmacologically in ME/CFS.

Methods: Primary skeletal muscle cell cultures from patients with ME/CFS and healthy controls were treated with either metformin or 991. AMPK activation was assessed by Western blot and glucose uptake measured.

Results: Both metformin and 991 treatment significantly increased AMPK activation and glucose uptake in muscle cell cultures from both controls and ME/CFS. Cellular ATP content was unaffected by treatment although ATP content was significantly decreased in ME/CFS compared to controls.

Conclusions: Pharmacological activation of AMPK can improve glucose uptake in muscle cell cultures from patients with ME/CFS. This suggests that the failure of electrical pulse stimulation to activate AMPK in these muscle cultures is due to a defect proximal to AMPK. Further work is required to delineate the defect and determine whether pharmacological activation of AMPK improves muscle function in patients with ME/CFS.

Source: Brown AE, Dibnah B, Fisher E, Newton JL, Walker M. Pharmacological activation of AMPK and glucose uptake in cultured human skeletal muscle cells from patients with ME/CFS. Biosci Rep. 2018 Apr 13. pii: BSR20180242. doi: 10.1042/BSR20180242. [Epub ahead of print]  https://www.ncbi.nlm.nih.gov/pubmed/29654166/

 

Metabolic features of the cell danger response

Editor’s note: Dr. Naviaux has theorized that the cell danger response lies at the heart of ME/CFS pathophysiology.

Abstract:

The cell danger response (CDR) is the evolutionarily conserved metabolic response that protects cells and hosts from harm. It is triggered by encounters with chemical, physical, or biological threats that exceed the cellular capacity for homeostasis. The resulting metabolic mismatch between available resources and functional capacity produces a cascade of changes in cellular electron flow, oxygen consumption, redox, membrane fluidity, lipid dynamics, bioenergetics, carbon and sulfur resource allocation, protein folding and aggregation, vitamin availability, metal homeostasis, indole, pterin, 1-carbon and polyamine metabolism, and polymer formation. The first wave of danger signals consists of the release of metabolic intermediates like ATP and ADP, Krebs cycle intermediates, oxygen, and reactive oxygen species (ROS), and is sustained by purinergic signaling. After the danger has been eliminated or neutralized, a choreographed sequence of anti-inflammatory and regenerative pathways is activated to reverse the CDR and to heal.

When the CDR persists abnormally, whole body metabolism and the gut microbiome are disturbed, the collective performance of multiple organ systems is impaired, behavior is changed, and chronic disease results. Metabolic memory of past stress encounters is stored in the form of altered mitochondrial and cellular macromolecule content, resulting in an increase in functional reserve capacity through a process known as mitocellular hormesis. The systemic form of the CDR, and its magnified form, the purinergic life-threat response (PLTR), are under direct control by ancient pathways in the brain that are ultimately coordinated by centers in the brainstem. Chemosensory integration of whole body metabolism occurs in the brainstem and is a prerequisite for normal brain, motor, vestibular, sensory, social, and speech development.

An understanding of the CDR permits us to reframe old concepts of pathogenesis for a broad array of chronic, developmental, autoimmune, and degenerative disorders. These disorders include autism spectrum disorders (ASD), attention deficit hyperactivity disorder (ADHD), asthma, atopy, gluten and many other food and chemical sensitivity syndromes, emphysema, Tourette’s syndrome, bipolar disorder, schizophrenia, post-traumatic stress disorder (PTSD), chronic traumatic encephalopathy (CTE), traumatic brain injury (TBI), epilepsy, suicidal ideation, organ transplant biology, diabetes, kidney, liver, and heart disease, cancer, Alzheimer and Parkinson disease, and autoimmune disorders like lupus, rheumatoid arthritis, multiple sclerosis, and primary sclerosing cholangitis.

Source: Robert K.Naviaux. Metabolic features of the cell danger response. Mitochondrion. Volume 16, May 2014, Pages 7-17. https://www.sciencedirect.com/science/article/pii/S1567724913002390 (Full article)