Raphael Schiffmann M.D.

Vasudevan, A., T. Bottiglieri, K. M. Tecson, M. Sathyamoorthy, J. M. Schussler, C. E. Velasco, L. R. Lopez, C. Swift, M. Peterson, J. Bennett-Firmin, R. Schiffmann and P. A. McCullough (2017). “Residual thromboxane activity and oxidative stress: Influence on mortality in patients with stable coronary artery disease.” Coron Artery Dis 28(4): 287-293.

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BACKGROUND: Aspirin use is effective in the prevention of cardiovascular disease; however, not all patients are equally responsive to aspirin. Oxidative stress reflected by F2-isoprostane [8-iso-prostaglandin-F2alpha (8-IsoPGF2alpha)] is a potential mechanism of failure of aspirin to adequately inhibit cyclooxygenase-1. The objective was to examine the relation between all-cause mortality and the concentrations of urinary 11-dehydro thromboxane B2 (11dhTxB2) and 8-IsoPGF2alpha in patients with stable coronary artery disease (CAD). METHODS: The data for this analysis are from a prospective study in which patients were categorized into four groups based on the median values of 11dhTxB2 and 8-IsoPGF2alpha. RESULTS: There were 447 patients included in this analysis with a median (range) age of 66 (37-91) years. The median (range) values of 11dhTxB2 and 8-IsoPGF2alpha were 1404.1 (344.2-68296.1) and 1477.9 (356.7-19256.3), respectively. A total of 67 (14.9%) patients died over a median follow-up of 1149 days. The reference group for the Cox proportional hazards survival analysis was patients with values of 11dhTxB2 and 8-IsoPGF2alpha below their corresponding medians. Adjusting for the age and sex, patients with values of 11dhTxB2 greater than the median had a significantly higher risk of mortality when compared with the reference group (high 11dhTxB2 and low 8-IsoPGF2alphaadj: hazard ratio: 3.2, 95% confidence interval: 1.6-6.6, P=0.002; high 11dhTxB2 and 8-IsoPGF2alphaadj: hazard ratio: 3.6, 95% confidence interval: 1.8-7.3, P<0.001). The findings were similar when we adjusted for the comorbidities of cancer, kidney function, and ejection fraction. CONCLUSION: We found that 11dhTxB2 appears to be a better prognostic marker for mortality as compared with 8-IsoPGF2alpha, suggesting aspirin resistance itself is a stronger independent determinant of death in CAD patients treated with aspirin.

Hughes, D. A., K. Nicholls, S. P. Shankar, G. Sunder-Plassmann, D. Koeller, K. Nedd, G. Vockley, T. Hamazaki, R. Lachmann, T. Ohashi, I. Olivotto, N. Sakai, P. Deegan, D. Dimmock, F. Eyskens, D. P. Germain, O. Goker-Alpan, E. Hachulla, A. Jovanovic, C. M. Lourenco, I. Narita, M. Thomas, W. R. Wilcox, D. G. Bichet, R. Schiffmann, E. Ludington, C. Viereck, J. Kirk, J. Yu, F. Johnson, P. Boudes, E. R. Benjamin, D. J. Lockhart, C. Barlow, N. Skuban, J. P. Castelli, J. Barth and U. Feldt-Rasmussen (2017). “Oral pharmacological chaperone migalastat compared with enzyme replacement therapy in fabry disease: 18-month results from the randomised phase iii attract study.” J Med Genet 54(4): 288-296.

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BACKGROUND: Fabry disease is an X-linked lysosomal storage disorder caused by GLA mutations, resulting in alpha-galactosidase (alpha-Gal) deficiency and accumulation of lysosomal substrates. Migalastat, an oral pharmacological chaperone being developed as an alternative to intravenous enzyme replacement therapy (ERT), stabilises specific mutant (amenable) forms of alpha-Gal to facilitate normal lysosomal trafficking. METHODS: The main objective of the 18-month, randomised, active-controlled ATTRACT study was to assess the effects of migalastat on renal function in patients with Fabry disease previously treated with ERT. Effects on heart, disease substrate, patient-reported outcomes (PROs) and safety were also assessed. RESULTS: Fifty-seven adults (56% female) receiving ERT (88% had multiorgan disease) were randomised (1.5:1), based on a preliminary cell-based assay of responsiveness to migalastat, to receive 18 months open-label migalastat or remain on ERT. Four patients had non-amenable mutant forms of alpha-Gal based on the validated cell-based assay conducted after treatment initiation and were excluded from primary efficacy analyses only. Migalastat and ERT had similar effects on renal function. Left ventricular mass index decreased significantly with migalastat treatment (-6.6 g/m2 (-11.0 to -2.2)); there was no significant change with ERT. Predefined renal, cardiac or cerebrovascular events occurred in 29% and 44% of patients in the migalastat and ERT groups, respectively. Plasma globotriaosylsphingosine remained low and stable following the switch from ERT to migalastat. PROs were comparable between groups. Migalastat was generally safe and well tolerated. CONCLUSIONS: Migalastat offers promise as a first-in-class oral monotherapy alternative treatment to intravenous ERT for patients with Fabry disease and amenable mutations.

McCullough, P. A., A. Vasudevan, M. Sathyamoorthy, J. M. Schussler, C. E. Velasco, L. R. Lopez, C. Swift, M. Peterson, J. Bennett-Firmin, R. Schiffmann and T. Bottiglieri (2017). “Urinary 11-dehydro-thromboxane b2 and mortality in patients with stable coronary artery disease.” Am J Cardiol: 2017 Jan [Epub ahead of print].

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Antiplatelet therapy with aspirin has been shown to reduce adverse outcomes in patients with coronary artery disease (CAD). Aspirin irreversibly inhibits platelet cyclooxygenase-1 and attenuates thromboxane A2 (TXA2)-mediated platelet aggregation, but there is variable suppression of cyclooxygenase-1. From a cohort of patients with stable CAD, we performed blinded, detailed chart abstraction, and measured urinary 11-dehydro-thromboxane B2 (11dhTxB2), an inactive metabolite of TxA2 from frozen samples. There were 327 men (73%) and 122 women (27%) with a mean age (+/-SD) of 67 +/- 10 and 65 +/- 10 years, respectively. A positive linear trend for age was observed among tertiles of 11dhTxB2 (p trend = 0.01). Higher proportions of women (p = 0.001), chronic obstructive pulmonary disease (p trend = 0.0003), and heart failure (p trend = 0.003) were observed in the upper tertile of 11dhTxB2. Sixty-seven patients (14.9%) died over a median follow-up of 1,149 days and 87.5% of the deaths were due to cardiovascular causes. Twenty-six nonsurvivors (38.8%) were treated with P2Y12 receptor antagonists versus 161 survivors (42.2%; p = 0.61). By stepwise Cox proportional hazards analysis, we identified that patients in the middle (hazard ratio 7.14; 95% CI 2.46 to 20.68) and upper tertiles (hazard ratio 9.91; 95% CI 3.45 to 28.50) had higher risks for mortality after adjusting for age and co-morbidities. In conclusion, urinary concentration of 11dhTxB2 was a strong independent risk factor for all-cause mortality among patients with stable CAD on aspirin therapy and may be a marker for patients with CAD who require more intensive secondary prevention measures.

Schiffmann, R., D. A. Hughes, G. E. Linthorst, A. Ortiz, E. Svarstad, D. G. Warnock, M. L. West and C. Wanner (2017). “Screening, diagnosis, and management of patients with fabry disease: Conclusions from a “kidney disease: Improving global outcomes” (kdigo) controversies conference.” Kidney Int 91(2): 284-293.

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Patients with Fabry disease (FD) are at a high risk for developing chronic kidney disease and cardiovascular disease. The availability of specific but costly therapy has elevated the profile of this rare condition. This KDIGO conference addressed controversial areas in the diagnosis, screening, and management of FD, and included enzyme replacement therapy and nonspecific standard-of-care therapy for the various manifestations of FD. Despite marked advances in patient care and improved overall outlook, there is a need to better understand the pathogenesis of this glycosphingolipidosis and to determine the appropriate age to initiate therapy in all types of patients. The need to develop more effective specific therapies was also emphasized.

Shen, J. S., E. Arning, M. L. West, T. S. Day, S. Chen, X. L. Meng, S. Forni, N. McNeill, O. Goker-Alpan, X. Wang, P. Ashcraft, D. F. Moore, S. H. Cheng, R. Schiffmann and T. Bottiglieri (2017). “Tetrahydrobiopterin deficiency in the pathogenesis of fabry disease.” Hum Mol Genet: 2017 Feb [Epub ahead of print].

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Fabry disease is caused by deficient activity of α-galactosidase A and subsequent accumulation of glycosphingolipids (mainly globotriaosylceramide, Gb3), leading to multisystem organ dysfunction. Oxidative stress and nitric oxide synthase (NOS) uncoupling are thought to contribute to Fabry cardiovascular diseases. We hypothesized that decreased tetrahydrobiopterin (BH4) plays a role in the pathogenesis of Fabry disease. We found that BH4 was decreased in the heart and kidney but not in the liver and aorta of Fabry mice. BH4 was also decreased in the plasma of female Fabry patients, which was not corrected by enzyme replacement therapy (ERT). Gb3 levels were inversely correlated with BH4 levels in animal tissues and cultured patient cells. To investigate the role of BH4 deficiency in disease phenotypes, 12-month-old Fabry mice were treated with gene transfer-mediated ERT or substrate reduction therapy (SRT) for 6 months. In the Fabry mice receiving SRT but not ERT, BH4 deficiency was restored, concomitant with ameliorated cardiac and renal hypertrophy. Additionally, glutathione levels were decreased in Fabry mouse tissues in a sex-dependent manner. Renal BH4 levels were closely correlated with glutathione levels and inversely correlated with cardiac and kidney weight. In conclusion, this study showed that BH4 deficiency occurs in Fabry disease and may contribute to the pathogenesis of the disease through oxidative stress associated with a reduced antioxidant capacity of cells and NOS uncoupling. This study also suggested dissimilar efficacy of ERT and SRT in correcting pre-existing pathologies in Fabry disease.