Among the multisystem consequences of myotonic dystrophy, patients are at risk of renal dysfunction. A recent paper by Dr. Tsuyoshi Matsumura (National Hospital Organization Toneyama National Hospital, Japan) and colleagues evaluated circulating cystatin C (CysC) levels in patients with a variety of neuromuscular diseases and found the highest levels in DM1, potentially predictive of subsequent kidney damage and failure. These data stress that renal function monitoring, via CysC levels, should be an important component of care for individuals with DM1. The assessment of renal dysfunction in neuromuscular disease is complicated by the fact that creatinine, which increases in renal dysfunction, declines in parallel with skeletal muscle loss. By contrast, cystatin C (CysC) levels also represent an indicator of kidney function, but one that is not affected by changes variables such as muscle volume, food intake, or exercise.

Thus CysC, as well as the glomerular filtration rate of CysC (GFRcys), constitute superior biomarkers of kidney function when the disease process itself impacts serum creatinine levels. Dr. Matsumura and his colleagues retrospectively studied a cohort of 586 patients with neuromuscular disease (141 with DM1), using a variety of renal function measures to evaluate the relative risks for development of kidney disease. None of the subjects had signs of renal dysfunction at the time of analysis. After controlling for baseline age and gender differences, cross-disease comparisons showed that elevation in CysC and reduction in GFRcys were most pronounced in individuals with DM1, suggesting that they were at the highest risk for kidney failure.

The study also showed that there was a modest correlation between expanded CTG repeat length and CysC levels. Finally, the authors reported findings from two DM1 autopsies, where nephrosclerotic changes were observed relatively early in disease course  (both subjects in their 40’s); although CysC levels were not available for these subjects, these data support the need for further study of the natural history of kidney dysfunction in DM1, to determine best practices for patient care.

Elevated CysC has previously been reported in neuromuscular disease patients with renal dysfunction or failure, and has been suggested as a safety biomarker for interventional clinical trials in these diseases. Findings by Dr. Matsumura’s team suggest that DM1 patients may be at greater risk for kidney dysfunction and failure than those with other neuromuscular diseases. Moreover, CysC levels may be an important biomarker for careful management of DM, as well as for safety assessments of interventions in DM1 clinical trials.

Reference:

"Renal dysfunction can be a common complication in patients with myotonic dystrophy 1."
Matsumura T, Saito T, Yonemoto N, Nakamori M, Sugiura T, Nakamori A, Fujimura H, Sakoda S.
J Neurol Sci. 2016 Sep 15;368:266-71. doi: 10.1016/j.jns.2016.07.036. Epub 2016 Jul 15.

A recent study corroborated increased susceptibility to cancer in DM1, for women in particular, and linked the elevated risk to depressed levels of a tumor suppressor microRNA (miRNA). The association between DM1 and increased risk of certain types of cancer was first recognized in 1965. Recent studies have validated these initial findings and suggested that cancer risks in DM1 were greater in women, but the causative mechanisms remained unknown. 

Dr. Adolfo López de Munain (Donostia University Hospital, San Sebastián, Spain) and colleagues have now corroborated gender differences in susceptibility to cancer and identified potential molecular mechanisms behind the cancer risk in DM1. In a publication in Neurology, Dr. López de Munain’s team quantified cancer risk in a well-characterized cohort of 424 patients with DM1, representing > 18,000 patient years of data, and explored the potential molecular links between DM1 and cancer prevalence.

All patients in the study had molecular confirmation of DM1 and substantial longitudinal phenotypic data available. The observed numbers of cancers in the DM1 cohort were compared against the numbers that would be expected, as calculated from the Basque region’s overall prevalence numbers, in order to determine standardized cancer incidence ratios. The investigators also performed gene expression analyses as a first step to understand molecular mechanisms behind the cancer prevalence data.

When compared to a general, geographically controlled population, DM1 patients showed a 2-fold increased risk of developing cancer. Mean age of malignant cancer detection in the DM1 cohort was 47 years. Gastrointestinal, genitourinary, skin and thyroid were the most frequent sites for malignant tumors. Increased risk was stronger in women with DM1.

In the overall DM1 population evaluated in this study, cancer represented the third leading cause of death, after respiratory and circulatory diseases. Analyses of molecular factors that may differentiate the at-risk DM1 population included CTG repeat length and genome-wide expression analysis of blood leukocytes using Affymetrix microarrays. The authors did not find a correlation between expanded CTG repeat length and cancer risk. Genome wide expression analysis did show differential expression of several genes that were previously linked to cancer (e.g., PDK4, DAPK1, CASP5, and PLA2G7).

Moreover, female patients with DM1 displayed significant down-regulation of the miRNA-200c/141 tumor suppressor family, while levels of this miRNA were elevated in men with DM1. Prior studies, in non-DM cohorts, have shown an association between declines in miRNA-200c and tumor progression/poor prognosis. Although further studies will be needed to mechanistically link changes in the DM1 transcriptome to increased cancer risk, the data from the San Sebastián group supports a compelling hypothesis linking reduction in tumor suppressor genes to cancer risk in women with DM1. The gender-specific differences in susceptibility to cancer, and the linkage to reduced levels of miRNA-200c, are particularly compelling findings for validation in independent DM1 cohorts and further mechanistic analyses.

Reference:

"Cancer risk in DM1 is sex-related and linked to miRNA-200/141 downregulation."
Fernández-Torrón R, García-Puga M, Emparanza JI, Maneiro M, Cobo AM, Poza JJ, Espinal JB, Zulaica M, Ruiz I, Martorell L, Otaegui D, Matheu A, López de Munain A.
Neurology. 2016 Aug 24. pii: 10.1212/WNL.0000000000003124. [Epub ahead of print]

While it has been widely recognized by clinicians treating DM that gender plays an important role in determining disease heterogeneity and progression, there is little hard data to support differential response of males and females to DM.

Dr. Guillaume Bassez and a large team in France and Canada have recently published an analysis of gender as a modifying factor of the DM1 phenotype. In the study, they evaluated 1,409 adult DM1 patients in the French DM-Scope registry. Importantly, findings were validated using additional cohorts from the AFM-Telethon DM1 survey and the French National Health Service Database.

The research team identified clear differences in symptoms detected by gender. Adult males were much more likely to present with “traditional” DM1 signs and symptoms, including muscle weakness and myotonia, cognitive impairment, and cardiac and respiratory involvement. By contrast, adult females had symptoms that were less suggestive of “traditional” DM1, instead showing predominance of cataracts, obesity, thyroid signs, and GI symptoms.  

The differing constellation of symptoms in the two sexes led the research team to conclude that women were often less symptomatic of DM1 and thus often undiagnosed, although this was potentially offset by the finding that women appeared to more often seek specialist care for DM1 symptoms.

Gender matters in DM1. The biologic mechanisms underlying the gender differences that the French group has documented for DM1 are unknown. To improve diagnosis and management of DM1, as well as to better plan for inclusion of both genders in clinical trials, it will be important to understand the factors responsible for the very different onset and progression of DM1 in males and females.

The heterogeneity (variability) that characterizes the clinical manifestations of myotonic dystrophy type 1 (DM1) has been well recognized by physicians, patients, and family members. Although the length of CTG expansions in the DMPK gene correlates with age of onset and severity of DM1, knowledge of other factors that impact progression of DM1 currently is rather limited.  

Intensive analysis of large cohorts of DM1 and DM2 patients are underway to identify both genetic modifiers, gene variants that can speed or slow disease onset or progression, and biomarkers, measurable indicators in blood or other tissues that can be critical for studies of disease progression and clinical trials. 

MDF is partnering with the research community to identify biomarkers and move them toward qualification by the regulatory authorities as drug development tools.

Understanding of the biological factors behind heterogeneity of DM1 is critical to help patients better understand their disease, as well as to help drug developers design successful clinical trials. The studies necessary to identify the underlying factors require large cohorts of affected individuals—for this reason, it is essential that patients become involved in research efforts that build the requisite databases, such as the Myotonic Dystrophy Family Registry. 

Dr. Richard Moxley of the University of Rochester addresses different endocrine problems that challenge patients with mytonic dystrophy types 1 & 2, how they can lead to symptoms and be associated with alterations in blood test measurements, known treatments to mitigate potential symptoms and future opportunities to develop better understanding of these endocrine problems.

Dahlqvist et al
European Journal of Neurology

Dr. John Vissing and his colleagues at the University of Copenhagen recently tracked a group of 68 adults with myotonic dystrophy type 1 (DM1), measuring their endocrine function change over 8 years.  The authors examined bloodwork for many endocrine dysfunctions including diabetes (HbA1c blood test), hyperparathyroidism (PTH blood test), and androgen insufficiency (testosterone blood test in men), and found that these dysfunctions became more common over time in people with DM1.  The authors recommend that doctors treating people with DM1 should screen for endocrine functions regularly, as the dysfunctions occurs more frequently in DM1 than the general population.

Click here to read the abstract for this study.

Click here for a PDF of this paper.

10/16/2014