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8. Severe early‐onset manifestations of pseudoxanthoma elasticum resulting from the cumulative effects of several deleterious mutations inENPP1,ABCC6andHBB: transient improvement in ectopic calcification with sodium thiosulfate

Author

Omarjee, L., primary, Nitschke, Y., additional, Verschuere, S., additional, Bourrat, E., additional, Vignon, M.‐D., additional, Navasiolava, N., additional, Leftheriotis, G., additional, Kauffenstein, G., additional, Rutsch, F., additional, Vanakker, O.M., additional, and Martin, L., additional

Published
2019
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10. Severe early‐onset manifestations of pseudoxanthoma elasticum resulting from the cumulative effects of several deleterious mutations in ENPP1, ABCC6 and HBB: transient improvement in ectopic calcification with sodium thiosulfate.

Author

Omarjee, L., Nitschke, Y., Verschuere, S., Bourrat, E., Vignon, M.‐D., Navasiolava, N., Leftheriotis, G., Kauffenstein, G., Rutsch, F., Vanakker, O.M., and Martin, L.

Subjects
*CALCIFICATION, *TREATMENT effectiveness, *SICKLE cell anemia, *MESENTERIC ischemia, *TERMINATION of treatment, *CALCIPHYLAXIS
Abstract

Summary: Pseudoxanthoma elasticum (PXE) is a rare disorder characterized by fragmentation and progressive calcification of elastic fibres in connective tissues. Overlap has been reported between the inherited PXE phenotype associated with ENPP1,ABCC6 or NT5E mutations and acquired PXE clinical manifestations associated with haemoglobinopathies induced by HBB mutations. No treatment is currently available for PXE. A young boy presented with severe early‐onset systemic calcifications occurring in the skin as elastosis perforans serpiginosa (EPS) and in the arteries, causing mesenteric and limb ischaemia. Analyses revealed deleterious ABCC6,ENPP1 and HBB mutations. The diagnosis of severe PXE was retained and we have coined the term 'PXE+ syndrome' to describe the cumulative effects of the various mutations in this uncommon phenotype. Given the severity, rapid progression and a potentially fatal prognosis, intravenous sodium thiosulfate (STS) was initiated at 25 g three times weekly for 6 months. Numerous side‐effects prompted dosage adjustment to 10 g intravenously daily. Treatment efficacy was evaluated at 6 months. Asthaenia, anorexia and pre‐/postprandial pain had subsided, entailing weight gain. Abdominal EPS had diminished. Calcific stenosis of the coeliac and mesenteric arteries was no longer detectable on arterial ultrasonography. Follow‐up revealed only transient efficacy of STS. Discontinuation of treatment to evaluate the persistence of effects resulted in relapse of the initial symptomatology after 4 months. STS efficacy is conceivably due to strong antioxidant properties and chelation of calcium to form soluble calcium thiosulfate complexes. This case is suggestive of PXE+ syndrome for which STS may represent potential treatment in severe cases. What's already known about this topic? Generalized arterial calcification of infancy may occur in association with ABCC6 mutations and pseudoxanthoma elasticum (PXE) can be linked to ENPP1 mutations.A PXE‐like phenotype has also been reported in a subset of patients with inherited haemoglobinopathies, namely sickle cell disease or β‐thalassaemia, related to HBB mutations.To date, there is still no cure for PXE. What does this study add? We report a severe case of PXE resulting from the cumulative effects of several deleterious mutations in ENPP1, ABCC6 and HBB. We suggest the term 'PXE+ syndrome' to describe such patients.Sodium thiosulfate therapy could represent a potential option in severe cases of PXE+ syndrome. [ABSTRACT FROM AUTHOR]

Published
2020
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12. Verminderte Nucleotid Pyrophosphatase Phosphodiesterase (NPP1) Expression ist mit Mineralisation des hyalinen Gelenkknorpels bei Arthrose (OA) assoziiert

Author

Fuerst, M, Bertrand, J, Nitschke, Y, and Pap, T

Subjects
ddc: 610, 610 Medical sciences, Medicine, Arthrose Mineralisation BCP
Abstract

Fragestellung: Die Mineralisation des hyalinen Gelenkknorpels bei OA ist ein regelhaftes Phänomen. Es konnte gezeigt werden, dass die Mineralisation des arthrotischen Gelenkknorpels durch basische Kalziumphosphatkristalle (BCP) mit der Schwere der OA korreliert und eng mit der hypertrophen Chondrozytendifferenzierung[for full text, please go to the a.m. URL], Deutscher Kongress für Orthopädie und Unfallchirurgie (DKOU 2012)

Published
2012
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14. Generalized arterial calcification of infancy and pseudoxanthoma elasticum can be caused by mutations in either ENPP1 or ABCC6

Author

Nitschke, Y., Baujat, G., Botschen, U., Wittkampf, T., du Moulin, M., Stella, J., Le Merrer, M., Guest, G., Lambot, K., Tazarourte-Pinturier, M.F., Chassaing, N., Roche, O., Feenstra, I., Loechner, K., Deshpande, C., Garber, S.J., Chikarmane, R., Steinmann, B., Shahinyan, T., Martorell, L., Davies, J., Smith, W.E., Kahler, S.G., McCulloch, M., Wraige, E., Loidi, L., Hohne, W., Martin, L., Hadj-Rabia, S., Terkeltaub, R., Rutsch, F., Nitschke, Y., Baujat, G., Botschen, U., Wittkampf, T., du Moulin, M., Stella, J., Le Merrer, M., Guest, G., Lambot, K., Tazarourte-Pinturier, M.F., Chassaing, N., Roche, O., Feenstra, I., Loechner, K., Deshpande, C., Garber, S.J., Chikarmane, R., Steinmann, B., Shahinyan, T., Martorell, L., Davies, J., Smith, W.E., Kahler, S.G., McCulloch, M., Wraige, E., Loidi, L., Hohne, W., Martin, L., Hadj-Rabia, S., Terkeltaub, R., and Rutsch, F.

Abstract

Item does not contain fulltext, Spontaneous pathologic arterial calcifications in childhood can occur in generalized arterial calcification of infancy (GACI) or in pseudoxanthoma elasticum (PXE). GACI is associated with biallelic mutations in ENPP1 in the majority of cases, whereas mutations in ABCC6 are known to cause PXE. However, the genetic basis in subsets of both disease phenotypes remains elusive. We hypothesized that GACI and PXE are in a closely related spectrum of disease. We used a standardized questionnaire to retrospectively evaluate the phenotype of 92 probands with a clinical history of GACI. We obtained the ENPP1 genotype by conventional sequencing. In those patients with less than two disease-causing ENPP1 mutations, we sequenced ABCC6. We observed that three GACI patients who carried biallelic ENPP1 mutations developed typical signs of PXE between 5 and 8 years of age; these signs included angioid streaks and pseudoxanthomatous skin lesions. In 28 patients, no disease-causing ENPP1 mutation was found. In 14 of these patients, we detected pathogenic ABCC6 mutations (biallelic mutations in eight patients, monoallelic mutations in six patients). Thus, ABCC6 mutations account for a significant subset of GACI patients, and ENPP1 mutations can also be associated with PXE lesions in school-aged children. Based on the considerable overlap of genotype and phenotype of GACI and PXE, both entities appear to reflect two ends of a clinical spectrum of ectopic calcification and other organ pathologies, rather than two distinct disorders. ABCC6 and ENPP1 mutations might lead to alterations of the same physiological pathways in tissues beyond the artery.

Published
2012

15. Fetal hydrops, hyperechogenic arteries and pathological doppler findings at 29 weeks: prenatal presentation of generalized arterial calcification of infancy - a novel mutation in ENPP1.

Author

Reitter A, Fischer D, Buxmann H, Nitschke Y, Rutsch F, Mottok A, Hansmann ML, Harms E, Louwen F, Schlosser R, Reitter, A, Fischer, D, Buxmann, H, Nitschke, Y, Rutsch, F, Mottok, A, Hansmann, M L, Harms, E, Louwen, F, and Schlosser, R

Abstract

Prenatal diagnosis of generalized arterial calcification of infancy (GACI) (OMIM #208000) is difficult and rare. There are various known gene mutations in ENPP1 (ectonucleotide pyrophosphatase/phosphodiesterase 1) locus 6q22-q23. We present a case of suspected intrauterine diagnosis at 29 weeks of gestation in a consanguineous couple. The sonographic findings were fetal hydrops (hydrothorax, skin edema, ascites, pericardial effusion and polyhydramnion), echogenic great arteries and pathological Doppler findings. An intrauterine therapy with bisphosphonates was considered, but delayed due to rapid deterioration in fetal Doppler flows with suspected fetal asphyxia. The couple was informed about the most unfavorable prognosis in fetal hydrops, however, they opted for elective delivery. A cesarean section was performed. Early neonatal death occurred due to primary intracranial hemorrhage. Postmortem and genetic testing confirmed a novel mutation in the ENPP1 gene. [ABSTRACT FROM AUTHOR]

Published
2009
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21. Generalized arterial calcification of infancy: Fatal clinical course associated with a novel mutation in ENPP1

Author

Giacomo Faldella, Silvia Galletti, Yvonne Nitschke, Giulia Aquilano, Frank Rutsch, A Malavolti, Luigi Corvaglia, Galletti S., Nitschke Y., Malavolti A.M., Aquilano G., Faldella G., Corvaglia L., and Rutsch F.

Subjects
medicine.medical_specialty, Pathology, Intimal hyperplasia, business.industry, Heart failure, medicine.disease, Internal elastic lamina, Article, Generalized arterial calcification, Stenosis, Arterial calcification, Myocardial infarction, Internal medicine, medicine, Cardiology, Bisphosphonate, Inorganic pyrophosphate, business, Rare disease
Abstract

Generalized arterial calcification of infancy (GACI) is a rare condition characterized by arterial calcification within the internal elastic lamina associated with intimal proliferation, leading to stenosis of great and medium-sized vessels. This disease, caused by mutations in multiple exons of ENPP1, frequently results in death in infancy. Nowadays, the most promising therapeutic compounds for this rare disease are bisphosphonates. We describe a case of GACI associated with the novel mutation c.653A>T (p.D218V) in ENPP1 on both alleles. The male infant was delivered prematurely and developed heart failure, severe hypertension, and diffuse calcifications of all arterial districts. He was treated with etidronate (18 mg/kg/day); however, the clinical condition did not improve, and a resolution of calcifications was not observed. The infant died within the 6th month of life of ischemic heart failure. We conclude that even if the diagnosis of GACI is established early and bisphosphonate treatment is started early, the prognosis can be very poor.

Published
2011

23. Inhibition of Vascular Smooth Muscle Cell Proliferation by ENPP1: The Role of CD73 and the Adenosine Signaling Axis.

Author

Tchernychev B, Nitschke Y, Chu D, Sullivan C, Flaman L, O'Brien K, Howe J, Cheng Z, Thompson D, Ortiz D, Rutsch F, and Sabbagh Y

Subjects
Animals, Mice, Humans, Adenosine Monophosphate metabolism, Mice, Inbred C57BL, Cyclic AMP metabolism, Male, Vascular Calcification metabolism, Vascular Calcification pathology, Vascular Calcification genetics, Phosphoric Diester Hydrolases metabolism, Phosphoric Diester Hydrolases genetics, Pyrophosphatases metabolism, Pyrophosphatases genetics, 5'-Nucleotidase metabolism, 5'-Nucleotidase genetics, Cell Proliferation drug effects, Muscle, Smooth, Vascular metabolism, Muscle, Smooth, Vascular pathology, Signal Transduction, Adenosine metabolism, Myocytes, Smooth Muscle metabolism, Myocytes, Smooth Muscle pathology, Myocytes, Smooth Muscle drug effects
Abstract

The Ectonucleotide Pyrophosphatase/Phosphodiesterase 1 (ENPP1) ectoenzyme regulates vascular intimal proliferation and mineralization of bone and soft tissues. ENPP1 variants cause Generalized Arterial Calcification of Infancy (GACI), a rare genetic disorder characterized by ectopic calcification, intimal proliferation, and stenosis of large- and medium-sized arteries. ENPP1 hydrolyzes extracellular ATP to pyrophosphate (PP i ) and AMP. AMP is the precursor of adenosine, which has been implicated in the control of neointimal formation. Herein, we demonstrate that an ENPP1-Fc recombinant therapeutic inhibits proliferation of vascular smooth muscle cells (VSMCs) in vitro and in vivo. Addition of ENPP1 and ATP to cultured VSMCs generated AMP, which was metabolized to adenosine. It also significantly decreased cell proliferation. AMP or adenosine alone inhibited VSMC growth. Inhibition of ecto-5'-nucleotidase CD73 decreased adenosine accumulation and suppressed the anti-proliferative effects of ENPP1/ATP. Addition of AMP increased cAMP synthesis and phosphorylation of VASP at Ser157. This AMP-mediated cAMP increase was abrogated by CD73 inhibitors or by A 2a R and A 2b R antagonists. Ligation of the carotid artery promoted neointimal hyperplasia in wild-type mice, which was exacerbated in ENPP1-deficient ttw/ttw mice. Prophylactic or therapeutic treatments with ENPP1 significantly reduced intimal hyperplasia not only in ttw/ttw but also in wild-type mice. These findings provide the first insight into the mechanism of the anti-proliferative effect of ENPP1 and broaden its potential therapeutic applications beyond enzyme replacement therapy.

Published
2024
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24. Improved Reversion of Calcifications in Porcine Aortic Heart Valves Using Elastin-Targeted Nanoparticles.

Author

Feldmann A, Nitschke Y, Linß F, Mulac D, Stücker S, Bertrand J, Buers I, Langer K, and Rutsch F

Subjects
Humans, Animals, Swine, Elastin metabolism, Aortic Valve metabolism, Pentetic Acid, Immunoglobulin G metabolism, Aortic Valve Stenosis drug therapy, Aortic Valve Stenosis metabolism, Nanoparticles
Abstract

Calcified aortic valve disease in its final stage leads to aortic valve stenosis, limiting cardiac function. To date, surgical intervention is the only option for treating calcific aortic valve stenosis. This study combined controlled drug delivery by nanoparticles (NPs) and active targeting by antibody conjugation. The chelating agent diethylenetriaminepentaacetic acid (DTPA) was covalently bound to human serum albumin (HSA)-based NP, and the NP surface was modified using conjugating antibodies (anti-elastin or isotype IgG control). Calcification was induced ex vivo in porcine aortic valves by preincubation in an osteogenic medium containing 2.5 mM sodium phosphate for five days. Valve calcifications mainly consisted of basic calcium phosphate crystals. Calcifications were effectively resolved by adding 1-5 mg DTPA/mL medium. Incubation with pure DTPA, however, was associated with a loss of cellular viability. Reversal of calcifications was also achieved with DTPA-coupled anti-elastin-targeted NPs containing 1 mg DTPA equivalent. The addition of these NPs to the conditioned media resulted in significant regression of the valve calcifications compared to that in the IgG-NP control without affecting cellular viability. These results represent a step further toward the development of targeted nanoparticular formulations to dissolve aortic valve calcifications.

Published
2023
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25. An Unusual Case of Transient Cardiac Calcification Identified on Antenatal Echocardiography: A Generalized Arterial Calcification of Infancy (GACI) Like Presentation.

Author

Suntharesan J, Agarwal U, Lim J, Collingwood C, Avula S, Mughal MZ, Nitschke Y, Botschen U, Rutsch F, and Ramakrishnan R

Subjects
Infant, Adult, Humans, Female, Pregnancy, Phosphoric Diester Hydrolases genetics, Echocardiography, Pyrophosphatases genetics, Vascular Calcification diagnostic imaging, Vascular Calcification pathology
Abstract

Generalised arterial calcification of infancy (GACI) is an ultra-rare life-threatening genetic disorder. Arterial calcification is identified during foetal ultrasound scan (USS) as increased cardiac and/or vascular echogenicity. Inorganic pyrophosphate (PP i ) is the main inhibitor of arterial calcification. Pathogenic variants in ENPP1, ABCC6 and NT5E causing low PP i lead to ectopic calcifications. Rheumatoid arthritis (RA) is an acquired condition that can also lead to arterial calcification in adults. We present an extremely rare case of a transient GACI-like condition identified during foetal echocardiogram of an infant born to a mother diagnosed with RA, which spontaneously resolved postnatally. This case highlights that foetal ultrasound scans of pregnant women with RA should be carefully evaluated for cardiovascular calcifications., (© 2022. Crown.)

Published
2022
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26. ENPP1 variants in patients with GACI and PXE expand the clinical and genetic heterogeneity of heritable disorders of ectopic calcification.

Author

Ralph D, Nitschke Y, Levine MA, Caffet M, Wurst T, Saeidian AH, Youssefian L, Vahidnezhad H, Terry SF, Rutsch F, Uitto J, and Li Q

Subjects
Genetic Heterogeneity, Humans, Multidrug Resistance-Associated Proteins genetics, Mutation, Phosphoric Diester Hydrolases genetics, Phosphoric Diester Hydrolases metabolism, Pyrophosphatases genetics, Pyrophosphatases metabolism, Pseudoxanthoma Elasticum genetics, Vascular Calcification genetics
Abstract

Pseudoxanthoma elasticum (PXE) and generalized arterial calcification of infancy (GACI) are clinically distinct genetic entities of ectopic calcification associated with differentially reduced circulating levels of inorganic pyrophosphate (PPi), a potent endogenous inhibitor of calcification. Variants in ENPP1, the gene mutated in GACI, have not been associated with classic PXE. Here we report the clinical, laboratory, and molecular evaluations of ten GACI and two PXE patients from five and two unrelated families registered in GACI Global and PXE International databases, respectively. All patients were found to carry biallelic variants in ENPP1. Among ten ENPP1 variants, one homozygous variant demonstrated uniparental disomy inheritance. Functional assessment of five previously unreported ENPP1 variants suggested pathogenicity. The two PXE patients, currently 57 and 27 years of age, had diagnostic features of PXE and had not manifested the GACI phenotype. The similarly reduced PPi plasma concentrations in the PXE and GACI patients in our study correlate poorly with their disease severity. This study demonstrates that in addition to GACI, ENPP1 variants can cause classic PXE, expanding the clinical and genetic heterogeneity of heritable ectopic calcification disorders. Furthermore, the results challenge the current prevailing concept that plasma PPi is the only factor governing the severity of ectopic calcification., Competing Interests: The authors have declared that no competing interests exist.

Published
2022
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27. Ectopic Calcification and Hypophosphatemic Rickets: Natural History of ENPP1 and ABCC6 Deficiencies.

Author

Ferreira CR, Kintzinger K, Hackbarth ME, Botschen U, Nitschke Y, Mughal MZ, Baujat G, Schnabel D, Yuen E, Gahl WA, Gafni RI, Liu Q, Huertas P, Khursigara G, and Rutsch F

Subjects
Humans, Infant, Mutation, Familial Hypophosphatemic Rickets diagnostic imaging, Familial Hypophosphatemic Rickets genetics, Multidrug Resistance-Associated Proteins deficiency, Multidrug Resistance-Associated Proteins genetics, Phosphoric Diester Hydrolases deficiency, Phosphoric Diester Hydrolases genetics, Pyrophosphatases deficiency, Pyrophosphatases genetics, Vascular Calcification diagnostic imaging, Vascular Calcification genetics
Abstract

Generalized arterial calcification of infancy (GACI) is a rare disorder caused by ENPP1 or ABCC6 variants. GACI is characterized by low pyrophosphate, arterial calcification, and high mortality during the first year of life, but the natural course and possible differences between the causative genes remain unknown. In all, 247 individual records for patients with GACI (from birth to 58.3 years of age) across 19 countries were reviewed. Overall mortality was 54.7% (13.4% in utero or stillborn), with a 50.4% probability of death before the age of 6 months (critical period). Contrary to previous publications, we found that bisphosphonate treatment had no survival benefit based on a start-time matched analysis and inconclusive results when initiated within 2 weeks of birth. Despite a similar prevalence of GACI phenotypes between ENPP1 and ABCC6 deficiencies, including arterial calcification (77.2% and 89.5%, respectively), organ calcification (65.8% and 84.2%, respectively), and cardiovascular complications (58.4% and 78.9%, respectively), mortality was higher for ENPP1 versus ABCC6 variants (40.5% versus 10.5%, respectively; p = 0.0157). Higher prevalence of rickets was reported in 70.8% of surviving affected individuals with ENPP1 compared with that of ABCC6 (11.8%; p = 0.0001). Eleven affected individuals presenting with rickets and without a GACI diagnosis, termed autosomal recessive hypophosphatemic rickets type 2 (ARHR2), all had confirmed ENPP1 variants. Approximately 70% of these patients demonstrated evidence of ectopic calcification or complications similar to those seen in individuals with GACI, which shows that ARHR2 is not a distinct condition from GACI but represents part of the spectrum of ENPP1 deficiency. Overall, this study identified an early mortality risk in GACI patients despite attempts to treat with bisphosphonates, high prevalence of rickets almost exclusive to ENPP1 deficiency, and a spectrum of heterogenous calcification and multiple organ complications with both ENPP1 and ABCC6 variants, which suggests an overlapping pathology. © 2021 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research (ASBMR). This article has been contributed to by US Government employees and their work is in the public domain in the USA., (© 2021 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research (ASBMR). This article has been contributed to by US Government employees and their work is in the public domain in the USA.)

Published
2021
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28. Hereditary Disorders of Cardiovascular Calcification.

Author

Rutsch F, Buers I, and Nitschke Y

Subjects
Animals, Aortic Diseases complications, Aortic Diseases metabolism, Arteries pathology, Dental Enamel Hypoplasia complications, Dental Enamel Hypoplasia metabolism, Gaucher Disease complications, Gaucher Disease genetics, Gaucher Disease metabolism, Genetic Predisposition to Disease, Humans, Metabolism, Inborn Errors complications, Metabolism, Inborn Errors metabolism, Metacarpus metabolism, Muscular Diseases complications, Muscular Diseases metabolism, Odontodysplasia complications, Odontodysplasia metabolism, Osteoporosis complications, Osteoporosis metabolism, Phenotype, Risk Assessment, Risk Factors, Vascular Calcification complications, Vascular Calcification metabolism, Vascular Calcification pathology, Aortic Diseases genetics, Arteries metabolism, Dental Enamel Hypoplasia genetics, Heredity, Metabolism, Inborn Errors genetics, Metacarpus abnormalities, Muscular Diseases genetics, Odontodysplasia genetics, Osteogenesis genetics, Osteoporosis genetics, Vascular Calcification genetics
Abstract

Arterial calcification is a common phenomenon in the elderly, in patients with atherosclerosis or renal failure and in diabetes. However, when present in very young individuals, it is likely to be associated with an underlying hereditary disorder of arterial calcification. Here, we present an overview of the few monogenic disorders presenting with early-onset cardiovascular calcification. These disorders can be classified according to the function of the respective disease gene into (1) disorders caused by an altered purine and phosphate/pyrophosphate metabolism, (2) interferonopathies, and (3) Gaucher disease. The finding of arterial calcification in early life should alert the clinician and prompt further genetic work-up to define the underlying genetic defect, to establish the correct diagnosis, and to enable appropriate therapy.

Published
2021
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29. Alkaline Phosphatases Account for Low Plasma Levels of Inorganic Pyrophosphate in Chronic Kidney Disease.

Author

Laurain A, Rubera I, Duranton C, Rutsch F, Nitschke Y, Ray E, Vido S, Sicard A, Lefthériotis G, and Favre G

Abstract

Introduction: Patients on dialysis and kidney transplant recipients (KTR) present the syndrome of mineral and bone disorders (MBD), which share common traits with monogenic calcifying diseases related to disturbances of the purinergic system. Low plasma levels of inorganic pyrophosphate (PP i ) and ectopic vascular calcifications belong to these two conditions. This suggests that the purinergic system may be altered in chronic kidney disease with MBD. Therefore, we perform a transversal pilot study in order to compare the determinants of PPi homeostasis and the plasma levels of PPi in patients on dialysis, in KTR and in healthy people., Patients and Methods: We included 10 controls, 10 patients on maintenance dialysis, 10 early KTR 3 ± 1 months after transplantation and nine late KTR 24 ± 3 months after transplantation. We measured aortic calcifications, plasma and urine levels of PP i , the renal fractional excretion of PP i (FePP i ), nucleoside triphosphate hydrolase (NPP) and ALP activities in plasma. Correlations and comparisons were assessed with non-parametric tests., Results: Low PP i was found in patients on dialysis [1.11 (0.88-1.35), p = 0.004], in early KTR [0.91 (0.66-0.98), p = 0.0003] and in late KTR [1.16 (1.07-1.45), p = 0.02] compared to controls [1.66 (1.31-1.72) μmol/L]. Arterial calcifications were higher in patients on dialysis than in controls [9 (1-75) vs. 399 (25-526) calcium score/cm 2 , p < 0.05]. ALP activity was augmented in patients on dialysis [113 (74-160), p = 0.01] and in early KTR [120 (84-142), p = 0.002] compared to controls [64 (56-70) UI/L]. The activity of NPP and FePP i were not different between groups. ALP activity was negatively correlated with PP i ( r = -0.49, p = 0.001)., Discussion: Patients on dialysis and KTR have low plasma levels of PP i , which are partly related to high ALP activity, but neither to low NPP activity, nor to increased renal excretion of PP i . Further work is necessary to explore comprehensively the purinergic system in chronic kidney disease., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The handling editor declared a past co-authorship with several of the authors FR, YN, and GL., (Copyright © 2020 Laurain, Rubera, Duranton, Rutsch, Nitschke, Ray, Vido, Sicard, Lefthériotis and Favre.)

Published
2020
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30. Generation of induced pluripotent stem cell lines from a Crisponi/Cold induced sweating syndrome type 1 individual.

Author

Schöning L, Loges NT, Nitschke Y, Höben IM, Röpke A, Crisponi L, Omran H, Rutsch F, and Buers I

Subjects
Facies, Humans, Sweating, Hand Deformities, Congenital, Hyperhidrosis, Induced Pluripotent Stem Cells
Abstract

Cytokine receptor like factor 1 (CRLF1) is the gene implicated, when mutated, in Crisponi syndrome/cold-induced sweating syndrome type 1 (CS/CISS1). Here, we report the establishment of induced pluripotent stem cell lines (iPSCs) from fibroblasts of a Turkish CS/CISS1 individual with a homozygous variant in CRLF1 (c.708&#95;709delinsT; p.[Pro238Argfs*6]). This variant is the most frequent variant associated to CS/CISS1 in the Turkish population. These patient derived iPSC lines show all pluripotency markers, a normal karyotype and the ability to differentiate into the three germ layers., (Copyright © 2020 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2020
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31. Crisponi syndrome/cold-induced sweating syndrome type 2: Reprogramming of CS/CISS2 individual derived fibroblasts into three clones of one iPSC line.

Author

Buers I, Schöning L, Tomas Loges N, Nitschke Y, Höben IM, Röpke A, Crisponi L, Omran H, and Rutsch F

Subjects
Adolescent, Cellular Reprogramming, Clone Cells, Death, Sudden, Facies, Fibroblasts, Hand Deformities, Congenital, Humans, Hyperhidrosis, Infant, Newborn, Receptors, Cytokine genetics, Trismus congenital, Induced Pluripotent Stem Cells
Abstract

Crisponi syndrome/cold-induced sweating syndrome type 2 (CS/CISS2) is a rare disease with severe dysfunctions of thermoregulatory processes. CS/CISS2 individuals suffer from recurrent episodes of hyperthermia in the neonatal period and paradoxical sweating at cold ambient temperatures in adolescence. Variants in CLCF1 (cardiotrophin-like-cytokine 1) cause CS/CISS2. Here, we summarize the generation of three clones of one stem cell line (iPSC) of a CS/CISS2 individual carrying the CLCF1 variant c.321C>G on both alleles. These patient derived iPSC clones show a normal karyotype, several pluripotency markers, and the ability to differentiate into the three germ layers., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2020
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32. Reversion of arterial calcification by elastin-targeted DTPA-HSA nanoparticles.

Author

Keuth J, Nitschke Y, Mulac D, Riehemann K, Rutsch F, and Langer K

Subjects
Animals, Antibodies immunology, Aorta immunology, Aorta metabolism, Aorta pathology, Calcium Chelating Agents chemistry, Cell Line, Drug Compounding, Female, Humans, Male, Mice, Inbred C57BL, Mice, Knockout, Multidrug Resistance-Associated Proteins deficiency, Multidrug Resistance-Associated Proteins genetics, Nanoparticles, Pentetic Acid chemistry, Pseudoxanthoma Elasticum immunology, Pseudoxanthoma Elasticum metabolism, Pseudoxanthoma Elasticum pathology, Serum Albumin, Human metabolism, Vascular Calcification immunology, Vascular Calcification metabolism, Vascular Calcification pathology, Antibodies chemistry, Aorta drug effects, Calcium Chelating Agents pharmacology, Drug Carriers, Elastin immunology, Pentetic Acid pharmacology, Pseudoxanthoma Elasticum drug therapy, Serum Albumin, Human chemistry, Vascular Calcification drug therapy
Abstract

Generalized arterial calcification of infancy (GACI) and pseudoxanthoma elasticum (PXE) are characterized by pathologic calcifications in the media of large- and medium sized arteries. GACI is associated with biallelic mutations in ENPP1 in the majority of cases, whereas mutations in ABCC6 are known to cause PXE. Different treatment approaches including bisphosphonates and orally administered pyrophosphate (PP i ) were investigated in recent years, but reversion of calcification could not be achieved. With this study, we pursued the idea of a combination of controlled drug delivery through nanoparticles and active targeting via antibody conjugation to develop a treatment for GACI and PXE. To establish a suitable drug delivery system, the chelating drug diethylenetriamine pentaacetic acid (DTPA) was conjugated to nanoparticles composed of human serum albumin (HSA) as biodegradable and non-toxic particle matrix. To accomplish an active targeting of the elastic fibers exposed through calcification of the affected areas, the nanoparticle surface was functionalized with an anti-elastin antibody. Cytotoxicity and cell interaction studies revealed favorable preconditions for the intended i.v. application. The chelating ability was evaluated in vitro and ex vivo on aortic ring culture isolated from two mouse models of GACI and PXE. The positive results led to the conclusion that the produced nanoparticles might be a promising therapy in the treatment of GACI and PXE., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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33. Crisponi/cold-induced sweating syndrome: Differential diagnosis, pathogenesis and treatment concepts.

Author

Buers I, Persico I, Schöning L, Nitschke Y, Di Rocco M, Loi A, Sahi PK, Utine GE, Bayraktar-Tanyeri B, Zampino G, Crisponi G, Rutsch F, and Crisponi L

Subjects
Ciliary Neurotrophic Factor Receptor alpha Subunit genetics, Craniosynostoses genetics, Craniosynostoses pathology, Death, Sudden pathology, Diagnosis, Differential, Facies, Hand Deformities, Congenital pathology, Hand Deformities, Congenital therapy, Humans, Hyperhidrosis pathology, Hyperhidrosis therapy, Intellectual Disability genetics, Intellectual Disability pathology, Retinitis Pigmentosa diagnosis, Retinitis Pigmentosa genetics, Retinitis Pigmentosa pathology, Scoliosis diagnosis, Trismus diagnosis, Trismus pathology, Trismus therapy, Craniosynostoses diagnosis, Cytokines genetics, Hand Deformities, Congenital diagnosis, Hyperhidrosis diagnosis, Intellectual Disability diagnosis, Receptors, Cytokine genetics, Trismus congenital
Abstract

Crisponi/cold-induced sweating syndrome (CS/CISS) is an autosomal recessive disease characterized by hyperthermia, camptodactyly, feeding and respiratory difficulties often leading to sudden death in the neonatal period. The affected individuals who survived the first critical years of life, develop cold-induced sweating and scoliosis in early childhood. The disease is caused by variants in the CRLF1 or in the CLCF1 gene. Both proteins form a heterodimeric complex that acts on cells expressing the ciliary neurotrophic factor receptor (CNTFR). CS/CISS belongs to the family of "CNTFR-related disorders" showing a similar clinical phenotype. Recently, variants in other genes, including KLHL7, NALCN, MAGEL2 and SCN2A, previously linked to other diseases, have been associated with a CS/CISS-like phenotype. Therefore, retinitis pigmentosa and Bohring-Optiz syndrome-like (KLHL7), Congenital contractures of the limbs and face, hypotonia, and developmental delay syndrome (NALCN), Chitayat-Hall/Schaaf-Yang syndrome (MAGEL2), and early infantile epileptic encephalopathy-11 syndrome (SCN2A) all share an overlapping phenotype with CS/CISS, especially in the neonatal period. This review aims to summarize the existing literature on CS/CISS, focusing on the current state of differential diagnosis, pathogenesis and treatment concepts in order to achieve an accurate and rapid diagnosis. This will improve patient management and enable specific treatments for the affected individuals., (© 2019 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2020
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34. Endogenous Calcification Inhibitors in the Prevention of Vascular Calcification: A Consensus Statement From the COST Action EuroSoftCalcNet.

Author

Bäck M, Aranyi T, Cancela ML, Carracedo M, Conceição N, Leftheriotis G, Macrae V, Martin L, Nitschke Y, Pasch A, Quaglino D, Rutsch F, Shanahan C, Sorribas V, Szeri F, Valdivielso P, Vanakker O, and Kempf H

Abstract

The physicochemical deposition of calcium-phosphate in the arterial wall is prevented by calcification inhibitors. Studies in cohorts of patients with rare genetic diseases have shed light on the consequences of loss-of-function mutations for different calcification inhibitors, and genetic targeting of these pathways in mice have generated a clearer picture on the mechanisms involved. For example, generalized arterial calcification of infancy (GACI) is caused by mutations in the enzyme ecto-nucleotide pyrophosphatase/phosphodiesterase-1 (eNPP1), preventing the hydrolysis of ATP into pyrophosphate (PP i ). The importance of PP i for inhibiting arterial calcification has been reinforced by the protective effects of PP i in various mouse models displaying ectopic calcifications. Besides PP i , Matrix Gla Protein (MGP) has been shown to be another potent calcification inhibitor as Keutel patients carrying a mutation in the encoding gene or Mgp -deficient mice develop spontaneous calcification of the arterial media. Whereas PP i and MGP represent locally produced calcification inhibitors, also systemic factors contribute to protection against arterial calcification. One such example is Fetuin-A, which is mainly produced in the liver and which forms calciprotein particles (CPPs), inhibiting growth of calcium-phosphate crystals in the blood and thereby preventing their soft tissue deposition. Other calcification inhibitors with potential importance for arterial calcification include osteoprotegerin, osteopontin, and klotho. The aim of the present review is to outline the latest insights into how different calcification inhibitors prevent arterial calcification both under physiological conditions and in the case of disturbed calcium-phosphate balance, and to provide a consensus statement on their potential therapeutic role for arterial calcification.

Published
2019
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35. ENPP1-Fc prevents neointima formation in generalized arterial calcification of infancy through the generation of AMP.

Author

Nitschke Y, Yan Y, Buers I, Kintziger K, Askew K, and Rutsch F

Subjects
Adenosine Triphosphate blood, Adenosine Triphosphate metabolism, Animals, Cell Proliferation drug effects, Disease Models, Animal, Female, Gene Knockout Techniques, Humans, Immunoglobulin Fc Fragments genetics, Induced Pluripotent Stem Cells cytology, Induced Pluripotent Stem Cells metabolism, Male, Mice, Mice, Knockout, Models, Biological, Myocytes, Smooth Muscle cytology, Myocytes, Smooth Muscle metabolism, Neointima etiology, Neointima prevention & control, Phosphoric Diester Hydrolases genetics, Pyrophosphatases genetics, RNA, Small Interfering genetics, Rats, Recombinant Fusion Proteins genetics, Vascular Calcification drug therapy, Vascular Calcification etiology, Adenosine Monophosphate biosynthesis, Immunoglobulin Fc Fragments pharmacology, Neointima metabolism, Neointima pathology, Phosphoric Diester Hydrolases pharmacology, Pyrophosphatases pharmacology, Recombinant Fusion Proteins pharmacology, Vascular Calcification metabolism, Vascular Calcification pathology
Abstract

Generalized arterial calcification of infancy (GACI) is associated with widespread arterial calcification and stenoses and is caused by mutations in ENPP1. ENPP1 encodes for ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1), which cleaves ATP to generate inorganic pyrophosphate (PP i ) and adenosine monophosphate (AMP) extracellularly. The current study was designed to define the prevalence of arterial stenoses in GACI individuals and to identify the mechanism through which ENPP1 deficiency causes intimal proliferation. Furthermore, we aimed to effectively prevent and treat neointima formation in an animal model of GACI through the systemic administration of recombinant human (rh)ENPP1-Fc protein. Based on a literature review, we report that arterial stenoses are present in at least 72.4% of GACI cases. We evaluated the effect of rhENPP1-Fc on ENPP1-silenced human vascular smooth muscle cells (VSMCs) and on induced intimal proliferation in Enpp1-deficient ttw/ttw mice treated with carotid ligation. We demonstrate that silencing ENPP1 in VSMCs resulted in a tenfold increase in proliferation relative to that of cells transfected with negative control siRNA. The addition of rhENPP1-Fc, AMP or adenosine restored the silenced ENPP1-associated proliferation. In contrast, neither PP i nor etidronate, a current off-label treatment for GACI, had an effect on VSMC proliferation. Furthermore, subcutaneous rhENPP1-Fc protein replacement was effective in preventing and treating intimal hyperplasia induced by carotid ligation in an animal model of GACI. We conclude that ENPP1 inhibits neointima formation by generating  AMP. RhENPP1-Fc may serve as an approach for the effective prevention and treatment of arterial stenoses in GACI.

Published
2018
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36. Inherited Arterial Calcification Syndromes: Etiologies and Treatment Concepts.

Author

Nitschke Y and Rutsch F

Subjects
Abnormalities, Multiple drug therapy, Abnormalities, Multiple genetics, Abnormalities, Multiple metabolism, Aortic Diseases drug therapy, Aortic Diseases genetics, Aortic Diseases metabolism, Basal Ganglia Diseases drug therapy, Basal Ganglia Diseases genetics, Basal Ganglia Diseases metabolism, Calcinosis drug therapy, Calcinosis genetics, Calcinosis metabolism, Cartilage Diseases drug therapy, Cartilage Diseases genetics, Cartilage Diseases metabolism, Dental Enamel Hypoplasia drug therapy, Dental Enamel Hypoplasia genetics, Dental Enamel Hypoplasia metabolism, Diphosphates metabolism, Enzyme Replacement Therapy, Gaucher Disease drug therapy, Gaucher Disease genetics, Gaucher Disease metabolism, Hand Deformities, Congenital drug therapy, Hand Deformities, Congenital genetics, Hand Deformities, Congenital metabolism, Humans, Hyperostosis, Cortical, Congenital drug therapy, Hyperostosis, Cortical, Congenital genetics, Hyperostosis, Cortical, Congenital metabolism, Hyperphosphatemia drug therapy, Hyperphosphatemia genetics, Hyperphosphatemia metabolism, Interferons metabolism, Metacarpus abnormalities, Metacarpus metabolism, Muscular Diseases drug therapy, Muscular Diseases genetics, Muscular Diseases metabolism, Odontodysplasia drug therapy, Odontodysplasia genetics, Odontodysplasia metabolism, Osteoporosis drug therapy, Osteoporosis genetics, Osteoporosis metabolism, Phosphates metabolism, Progeria drug therapy, Progeria genetics, Progeria metabolism, Pseudoxanthoma Elasticum drug therapy, Pseudoxanthoma Elasticum genetics, Pseudoxanthoma Elasticum metabolism, Pulmonary Valve Stenosis drug therapy, Pulmonary Valve Stenosis genetics, Pulmonary Valve Stenosis metabolism, Vascular Calcification drug therapy, Vascular Calcification metabolism, Vascular Calcification genetics
Abstract

Purpose of Review: We give an update on the etiology and potential treatment options of rare inherited monogenic disorders associated with arterial calcification and calcific cardiac valve disease., Recent Findings: Genetic studies of rare inherited syndromes have identified key regulators of ectopic calcification. Based on the pathogenic principles causing the diseases, these can be classified into three groups: (1) disorders of an increased extracellular inorganic phosphate/inorganic pyrophosphate ratio (generalized arterial calcification of infancy, pseudoxanthoma elasticum, arterial calcification and distal joint calcification, progeria, idiopathic basal ganglia calcification, and hyperphosphatemic familial tumoral calcinosis; (2) interferonopathies (Singleton-Merten syndrome); and (3) others, including Keutel syndrome and Gaucher disease type IIIC. Although some of the identified causative mechanisms are not easy to target for treatment, it has become clear that a disturbed serum phosphate/pyrophosphate ratio is a major force triggering arterial and cardiac valve calcification. Further studies will focus on targeting the phosphate/pyrophosphate ratio to effectively prevent and treat these calcific disease phenotypes.

Published
2017
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37. Effects of Different Variants in the ENPP1 Gene on the Functional Properties of Ectonucleotide Pyrophosphatase/Phosphodiesterase Family Member 1.

Author

Stella J, Buers I, van de Wetering K, Höhne W, Rutsch F, and Nitschke Y

Subjects
Animals, COS Cells, Cell Membrane metabolism, Chlorocebus aethiops, Diphosphates metabolism, Down-Regulation, HEK293 Cells, Humans, Mutagenesis, Site-Directed, Mutation, Missense, Phosphoric Diester Hydrolases genetics, Phosphoric Diester Hydrolases metabolism, Pyrophosphatases genetics, Pyrophosphatases metabolism, Vascular Calcification genetics
Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase family member 1 (E-NPP1), encoded by ENPP1, is a plasma membrane protein that generates inorganic pyrophosphate (PP i ), a physiologic inhibitor of hydroxyapatite formation. In humans, variants in ENPP1 are associated with generalized arterial calcification of infancy, an autosomal-recessive condition causing premature onset of arterial calcification and intimal proliferation resulting in stenoses. ENPP1 variants also cause pseudoxanthoma elasticum characterized by ectopic calcification of soft connective tissues. To determine the functional impact of ENPP1 missense variants, we analyzed 13 putative pathogenic variants in vitro regarding their functional properties, that is, activity, localization, and PP i generation. Transfection of eight of the 13 variants led to complete loss of NPP activity, whereas four mutants (c.1412A > G, p.Tyr471Cys; c.1510A > C, p.Ser504Arg; c.1976A > G, p.Tyr659Cys; c.2330A > G, p.His777Arg) showed residual activity compared with wild-type E-NPP1. One putative pathologic variant (c.2462 G > A, p.Arg821His) showed normal activity. The five mutants with normal or residual E-NPP1 enzyme activity were still able to generate PP i and localized in the plasma membrane. In this study, we identified a functional ENPP1 polymorphism, which was expected to be pathogenic till now. Furthermore, we identified four mutants (p.Tyr471Cys, p.Ser504Arg, p.Tyr659Cys, p.His777Arg) with residual E-NPP1 function, which would be potential therapeutical targets for conformational-stabilizing agents., (© 2016 WILEY PERIODICALS, INC.)

Published
2016
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38. Lmbrd1 expression is essential for the initiation of gastrulation.

Author

Buers I, Pennekamp P, Nitschke Y, Lowe C, Skryabin BV, and Rutsch F

Subjects
Animals, Biomarkers metabolism, Embryo Loss genetics, Embryo Loss pathology, Embryo, Mammalian metabolism, Embryo, Mammalian pathology, Female, Gene Targeting, Hepatocyte Nuclear Factor 3-beta metabolism, Male, Mice, Mice, Inbred C57BL, Mouse Embryonic Stem Cells metabolism, Transfection, Gastrulation, Nucleocytoplasmic Transport Proteins metabolism
Abstract

The rare inborn cblF defect of cobalamin metabolism is caused by mutations in the limb region 1 (LMBR1) domain containing 1 gene (LMBRD1). This defect is characterized by massive accumulation of free cobalamin in lysosomes and loss of mitochondrial succinyl-CoA synthesis and cytosolic methionine synthesis. Affected children suffer from heart defects, developmental delay and megaloblastic anemia. LMBRD1 encodes for LMBD1, a predicted lysosomal cobalamin transport protein. In this study, we determine the physiological function of LMBRD1 during embryogenesis by generating Lmbrd1 deficient mice using the Cre/LoxP system. Complete loss of Lmbrd1 function is accompanied by early embryonic death in mice. Whole mount in situ hybridization studies against bone morphogenetic protein 4 and Nodal show that initial formation of the proximal-distal axis is unaffected in early embryonic stages whereas the initiation of gastrulation is disturbed shown by the expression pattern of even skipped homeotic gene 1 and fibroblast growth factor 8 in Lmbrd1 deficient mice. We conclude that intact function of LMBD1 is essential for the initiation of gastrulation., (© 2016 The Authors. Journal of Cellular and Molecular Medicine published by John Wiley & Sons Ltd and Foundation for Cellular and Molecular Medicine.)

Published
2016
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39. Novel interferonopathies associated with mutations in RIG-I like receptors.

Author

Buers I, Nitschke Y, and Rutsch F

Subjects
Animals, Autoimmune Diseases immunology, Autoimmune Diseases pathology, DEAD Box Protein 58 immunology, Humans, Interferon Type I immunology, Interferon-Induced Helicase, IFIH1 genetics, Interferon-Induced Helicase, IFIH1 immunology, Receptors, Immunologic, Signal Transduction immunology, Autoimmune Diseases genetics, DEAD Box Protein 58 genetics, Interferon Type I genetics, Mutation, Signal Transduction genetics
Abstract

Type I interferonopathies are a relatively new class of inherited autoimmune disorders associated with an inborn elevated interferon response. Activation of cytosolic receptors which recognize viral double stranded RNA including the RIG-I (retinoic acid-inducible gene I) like receptors RIG-I and MDA5 (melanoma differentiation-associated gene 5) has been shown to induce the transcription of type I interferon genes. Within recent years, with the help of next generation sequencing techniques in syndromic families, mutations in the genes encoding for RIG-I and MDA5 have been identified to cause rare diseases including Aicardi-Goutières syndrome, Systemic Lupus Erythematosus in certain individuals as well as classic and atypical Singleton-Merten syndrome. Patients carrying mono-allelic mutations in MDA5 and RIG-I show constitutive activation of the RIG-I receptors and downstream signalling associated with increased type I interferon production. Although differing in the degree of phenotypic expression and severity, the phenotype of these "novel" diseases shows a considerable overlap reflecting their common pathogenetic pathway., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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40. A specific IFIH1 gain-of-function mutation causes Singleton-Merten syndrome.

Author

Rutsch F, MacDougall M, Lu C, Buers I, Mamaeva O, Nitschke Y, Rice GI, Erlandsen H, Kehl HG, Thiele H, Nürnberg P, Höhne W, Crow YJ, Feigenbaum A, and Hennekam RC

Subjects
Amino Acid Sequence, Arteries pathology, Base Sequence, Calcinosis genetics, Calcinosis pathology, DEAD-box RNA Helicases chemistry, DEAD-box RNA Helicases metabolism, Exome genetics, Genes, Dominant genetics, Humans, Immunohistochemistry, Interferon-Induced Helicase, IFIH1, Interferon-beta metabolism, Molecular Sequence Data, Mutation, Missense genetics, Pedigree, Sequence Analysis, DNA, Tooth Abnormalities genetics, Tooth Abnormalities pathology, Aortic Diseases genetics, DEAD-box RNA Helicases genetics, Dental Enamel Hypoplasia genetics, Metacarpus abnormalities, Models, Molecular, Muscular Diseases genetics, Odontodysplasia genetics, Osteoporosis genetics, Phenotype, Vascular Calcification genetics
Abstract

Singleton-Merten syndrome (SMS) is an infrequently described autosomal-dominant disorder characterized by early and extreme aortic and valvular calcification, dental anomalies (early-onset periodontitis and root resorption), osteopenia, and acro-osteolysis. To determine the molecular etiology of this disease, we performed whole-exome sequencing and targeted Sanger sequencing. We identified a common missense mutation, c.2465G>A (p.Arg822Gln), in interferon induced with helicase C domain 1 (IFIH1, encoding melanoma differentiation-associated protein 5 [MDA5]) in four SMS subjects from two families and a simplex case. IFIH1 has been linked to a number of autoimmune disorders, including Aicardi-Goutières syndrome. Immunohistochemistry demonstrated the localization of MDA5 in all affected target tissues. In vitro functional analysis revealed that the IFIH1 c.2465G>A mutation enhanced MDA5 function in interferon beta induction. Interferon signature genes were upregulated in SMS individuals' blood and dental cells. Our data identify a gain-of-function IFIH1 mutation as causing SMS and leading to early arterial calcification and dental inflammation and resorption., (Copyright © 2015 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2015
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41. Modulators of networks: molecular targets of arterial calcification identified in man and mice.

Author

Nitschke Y and Rutsch F

Subjects
Animals, Humans, Mice, Signal Transduction, Vascular Calcification genetics, Adenosine Triphosphate metabolism, Diphosphates metabolism, Receptors, Calcitriol metabolism, Vascular Calcification metabolism
Abstract

In recent years, mechanisms of arterial calcifications are beginning to be elucidated. Arterial calcification is now considered as an actively regulated process resembling osteogenesis within the arterial wall orchestrated by a number of systemic or constitutively expressed mediators. Genetic studies of rare monogenic human disorders and studies of naturally occurring or mutant mouse models have identified specific inductors and inhibitors of arterial calcification, which can be classified according to the networks they participate in. These networks include ATP and pyrophosphate metabolism, phosphate homeostasis and vitamin D receptor signaling. Furthermore, intracellular signaling molecules, including SMAD6 and a number of systemic circulatory inhibitors of arterial calcification, including fetuin, tumor necrosis factor receptor superfamily member 11b, matrix GLA protein, adiponectin and family with sequence similarity 20 member A have been identified by human and mouse genetics. Based on the in vivo evidence of their functional relevance, these proteins will serve as excellent targets for the prevention and treatment of arterial calcification. In this review we discuss the functional role of the identified modulators of arterial calcification and describe the networks they belong to.

Published
2014
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42. Generalized arterial calcification of infancy and pseudoxanthoma elasticum: two sides of the same coin.

Author

Nitschke Y and Rutsch F

Abstract

Generalized arterial calcification of infancy (GACI) is associated with biallelic mutations in ENPP1 in the majority of cases, whereas mutations in ABCC6 (ATP-binding cassette subfamily C number 6) are known to cause pseudoxanthoma elasticum (PXE). However, ABCC6 mutations account for a significant subset of GACI cases, and ENPP1 mutations can also be associated with PXE lesions. Based on the considerable overlap of GACI and PXE, both entities appear to reflect two ends of a clinical spectrum of ectopic calcification rather than two distinct disorders. ABCC6 and ENPP1 mutations might lead to alterations of the same physiological pathways.

Published
2012
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43. Genetics in arterial calcification: lessons learned from rare diseases.

Author

Nitschke Y and Rutsch F

Subjects
Atherosclerosis genetics, Basal Ganglia Diseases genetics, Calcinosis genetics, GPI-Linked Proteins genetics, Genotype, Humans, Mutation, Neurodegenerative Diseases genetics, Pseudoxanthoma Elasticum genetics, Vascular Calcification physiopathology, 5'-Nucleotidase genetics, Multidrug Resistance-Associated Proteins genetics, Phosphoric Diester Hydrolases genetics, Pyrophosphatases genetics, Sodium-Phosphate Cotransporter Proteins, Type III genetics, Vascular Calcification genetics
Abstract

Arterial calcification significantly contributes to morbidity and mortality. Insight into the pathophysiological mechanisms contributing to arterial calcification has come from genetic studies on four rare monogenic disorders. The disease-causing molecular defects in generalized arterial calcification of infancy (GACI), pseudoxanthoma elasticum (PXE), calcification of joints and arteries (CALJA), and familial idiopathic basal ganglia calcification (IBGC) have been identified within recent years. Based on the similarities of GACI, PXE, CALJA, and IBGC, it can be speculated that the underlying disease genes-ENPP1, ABCC6, NT5E, and SLC20A2, respectively-drive a cohesive molecular pathophysiology system modulated by ATP metabolism, inorganic pyrophosphate, adenosine, and inorganic phosphate generation and functional activities., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published
2012
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44. Molecular diagnosis of generalized arterial calcification of infancy (GACI).

Author

Kalal IG, Seetha D, Panda A, Nitschke Y, and Rutsch F

Abstract

Generalized arterial calcification of infancy (GACI) is a life-threatening disorder in young infants. Cardiovascular symptoms are usually apparent within the first month of life. The symptoms are caused by calcification of large and medium-sized arteries, including the aorta, coronary arteries, and renal arteries. Most of the patients die by 6 months of age because of heart failure. Recently, homozygous or compound heterozygous mutations for the ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) gene were reported as causative for the disorder. ENPP1 regulates extracellular inorganic pyrophosphate (PP(i)), a major inhibitor of extracellular matrix calcification. A newborn was diagnosed with GACI. The infant died at the age of 7 weeks of cardiac failure and the parents were referred to Molecular Biology and Cytogenetic lab for further workup. Cytogenetics analysis was performed on the parents, which showed normal karyotypes and mutational analysis for the ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) gene was also performed. The mutational analysis showed that both father and mother of the deceased infant were heterozygous carriers of the mutation c.749C>T (p.P250L) in exon 7 of ENPP1 and it was likely, that the deceased child carried the same mutation homozygous on both alleles and died of GACI resulting from this ENPP1 mutation. The couple was counseled and monitored for the second pregnancy. Amniocentesis was performed at 15 weeks of gestation for mutational analysis of the same gene in the second pregnancy. The analysis was negative for the parental mutations. One month after the birth of a healthy infant, peripheral blood was collected from the baby and sent for reconfirmation. The results again were negative for the mutation and the baby was on 6 months follow up and no major symptoms were seen. The parents of the child benefited enormously by learning about the disease much in advance and also its risk of recurrence. The main aim of this study is to emphasize on two aspects: (i) the importance of modern molecular techniques in diagnosis such a syndrome and (2) the difficulties faced by the physician to provide appropriate diagnosis and the adequate genetic counseling to the family without molecular facilities.

Published
2012
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45. Generalized arterial calcification of infancy and pseudoxanthoma elasticum can be caused by mutations in either ENPP1 or ABCC6.

Author

Nitschke Y, Baujat G, Botschen U, Wittkampf T, du Moulin M, Stella J, Le Merrer M, Guest G, Lambot K, Tazarourte-Pinturier MF, Chassaing N, Roche O, Feenstra I, Loechner K, Deshpande C, Garber SJ, Chikarmane R, Steinmann B, Shahinyan T, Martorell L, Davies J, Smith WE, Kahler SG, McCulloch M, Wraige E, Loidi L, Höhne W, Martin L, Hadj-Rabia S, Terkeltaub R, and Rutsch F

Subjects
Angioid Streaks genetics, Base Sequence, Child, Child, Preschool, Female, Humans, Infant, Male, Molecular Sequence Data, Pseudoxanthoma Elasticum pathology, Retrospective Studies, Surveys and Questionnaires, Vascular Calcification pathology, Multidrug Resistance-Associated Proteins genetics, Mutation, Phosphoric Diester Hydrolases genetics, Pseudoxanthoma Elasticum genetics, Pyrophosphatases genetics, Vascular Calcification genetics
Abstract

Spontaneous pathologic arterial calcifications in childhood can occur in generalized arterial calcification of infancy (GACI) or in pseudoxanthoma elasticum (PXE). GACI is associated with biallelic mutations in ENPP1 in the majority of cases, whereas mutations in ABCC6 are known to cause PXE. However, the genetic basis in subsets of both disease phenotypes remains elusive. We hypothesized that GACI and PXE are in a closely related spectrum of disease. We used a standardized questionnaire to retrospectively evaluate the phenotype of 92 probands with a clinical history of GACI. We obtained the ENPP1 genotype by conventional sequencing. In those patients with less than two disease-causing ENPP1 mutations, we sequenced ABCC6. We observed that three GACI patients who carried biallelic ENPP1 mutations developed typical signs of PXE between 5 and 8 years of age; these signs included angioid streaks and pseudoxanthomatous skin lesions. In 28 patients, no disease-causing ENPP1 mutation was found. In 14 of these patients, we detected pathogenic ABCC6 mutations (biallelic mutations in eight patients, monoallelic mutations in six patients). Thus, ABCC6 mutations account for a significant subset of GACI patients, and ENPP1 mutations can also be associated with PXE lesions in school-aged children. Based on the considerable overlap of genotype and phenotype of GACI and PXE, both entities appear to reflect two ends of a clinical spectrum of ectopic calcification and other organ pathologies, rather than two distinct disorders. ABCC6 and ENPP1 mutations might lead to alterations of the same physiological pathways in tissues beyond the artery., (Copyright © 2012 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2012
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46. Efficacy and safety of 2-year etidronate treatment in a child with generalized arterial calcification of infancy.

Author

Edouard T, Chabot G, Miro J, Buhas DC, Nitschke Y, Lapierre C, Rutsch F, and Alos N

Subjects
Absorptiometry, Photon, Angiography, Bone Density Conservation Agents administration & dosage, DNA genetics, Diagnosis, Differential, Drug Administration Schedule, Etidronic Acid administration & dosage, Female, Genetic Predisposition to Disease, Humans, Imaging, Three-Dimensional, Infant, Newborn, Mutation, Missense, Phosphoric Diester Hydrolases genetics, Pyrophosphatases genetics, Tomography, X-Ray Computed, Vascular Calcification diagnosis, Vascular Calcification genetics, Bone Density Conservation Agents therapeutic use, Etidronic Acid therapeutic use, Vascular Calcification drug therapy
Abstract

Unlabelled: Generalized arterial calcification of infancy (GACI, MIM#208000) is a rare autosomal recessive disorder characterized by extensive calcifications in the media of large- and medium-sized muscular arteries. Most affected children die in early infancy because of cardiac failure. GACI is linked to mutations in the ENPP1 gene, which encodes for an enzyme that generates inorganic pyrophosphate (PP(i)), a potent inhibitor of hydroxyapatite crystal formation. Treatment with bisphosphonates, which are synthetic PP(i) analogues, has been proposed as a means of reducing arterial calcifications in GACI patients, but no formalized treatment approach exists. We report on the long-term survival of a severe case of GACI linked to a novel homozygous missense mutation c.583T/C in the ENPP1 gene, diagnosed prenatally, and treated with bisphosphonates. Intravenous disodium pamidronate (three infusions at days 8, 15, and 18 of 0.25, 0.50, and 0.50 mg/kg, respectively) was changed to oral disodium etidronate (starting dose of 20 mg/kg daily, 50 mg die) at 3 weeks of age. Although the etidronate dose was maintained at 50 mg daily in our patient (corresponding to a progressive decrease from 20 to 5 mg/kg daily), the progressive resolution of arterial calcifications seen by 3 months of age was maintained until 2 years of age. Throughout the 2-year follow-up, our patient developed mild hypophosphatemia, due to renal phosphate wasting, without clinical, biochemical, or radiological sign of rickets., Conclusion: High-dose bisphosphonate therapy may not be necessary for an extended period of time in children with GACI.

Published
2011
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47. Npp1 promotes atherosclerosis in ApoE knockout mice.

Author

Nitschke Y, Weissen-Plenz G, Terkeltaub R, and Rutsch F

Subjects
Animals, Apolipoproteins E deficiency, Arteries pathology, Arteries physiopathology, Atherosclerosis genetics, Atherosclerosis pathology, Body Weight genetics, Calcinosis, Cells, Cultured, Lipids blood, Mice, Mice, Inbred ICR, Mice, Knockout, Muscle, Smooth, Vascular pathology, Muscle, Smooth, Vascular physiopathology, Mutation, Osteopontin biosynthesis, Osteopontin genetics, Osteopontin metabolism, Phosphoric Diester Hydrolases deficiency, Phosphoric Diester Hydrolases genetics, Pyrophosphatases deficiency, Pyrophosphatases genetics, Apolipoproteins E genetics, Atherosclerosis metabolism, Phosphoric Diester Hydrolases metabolism, Plaque, Atherosclerotic pathology, Pyrophosphatases metabolism
Abstract

Ecto-nucleotide pyrophosphatase/phosphodiesterase 1 (NPP1) generates inorganic pyrophosphate (PP(i)), a physiologic inhibitor of hydroxyapatite deposition. In a previous study, we found NPP1 expression to be inversely correlated with the degree of atherosclerotic plaque calcification. Moreover, function-impairing mutations of ENPP1, the gene encoding for NPP1, are associated with severe, artery tunica media calcification and myointimal hyperplasia with infantile onset in human beings. NPP1 and PP(i) have the potential to modulate atherogenesis by regulating arterial smooth muscle cell (SMC) differentiation and function, including increase of pro-atherogenic osteopontin (OPN) expression. Hence, this study tested the hypothesis that NPP1 deficiency modulates both atherogenesis and atherosclerotic intimal plaque calcification. Npp1/ApoE double deficient mice were generated by crossing mice bearing the ttw allele of Enpp1 (that encodes a truncation mutation) with ApoE null mice and fed with high-fat/high-cholesterol atherogenic diet. Atherosclerotic lesion area and calcification were examined at 13, 18, 23 and 28 weeks of age. The aortic SMCs isolated from both ttw/ttw ApoE(-/-) and ttw/+ ApoE(-/-) mice demonstrated decreased Opn expression. The 28-week-old ttw/ttw ApoE(-/-) and ttw/+ ApoE(-/-) had significantly smaller atherosclerotic lesions compared with wild-type congenic ApoE(-/-) mice. Only ttw/ttw but not ttw/+ mice developed artery media calcification. Furthermore in ttw/+ mice, there was a tendency towards increased plaque calcification compared to ApoE(-/-) mice without Npp1 deficiency. We conclude that Npp1 promotes atherosclerosis, potentially mediated by Opn expression in ApoE knockout mice., (© 2011 The Authors Journal of Cellular and Molecular Medicine © 2011 Foundation for Cellular and Molecular Medicine/Blackwell Publishing Ltd.)

Published
2011
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48. Genetics in arterial calcification: pieces of a puzzle and cogs in a wheel.

Author

Rutsch F, Nitschke Y, and Terkeltaub R

Subjects
Animals, Atherosclerosis metabolism, Calcinosis metabolism, Genetic Association Studies methods, Humans, Vascular Calcification, Vascular Diseases genetics, Vascular Diseases metabolism, Vascular Diseases pathology, Atherosclerosis genetics, Atherosclerosis pathology, Calcinosis genetics, Calcinosis pathology
Abstract

Artery calcification reflects an admixture of factors such as ectopic osteochondral differentiation with primary host pathological conditions. We review how genetic factors, as identified by human genome-wide association studies, and incomplete correlations with various mouse studies, including knockout and strain analyses, fit into "pieces of the puzzle" in intimal calcification in human atherosclerosis, and artery tunica media calcification in aging, diabetes mellitus, and chronic kidney disease. We also describe in sharp contrast how ENPP1, CD73, and ABCC6 serve as "cogs in a wheel" of arterial calcification. Specifically, each is a minor component in the function of a much larger network of factors that exert balanced effects to promote and suppress arterial calcification. For the network to normally suppress spontaneous arterial calcification, the "cogs" ENPP1, CD73, and ABCC6 must be present and in working order. Monogenic ENPP1, CD73, and ABCC6 deficiencies each drive a molecular pathophysiology of closely related but phenotypically different diseases (generalized arterial calcification of infancy (GACI), pseudoxanthoma elasticum (PXE) and arterial calcification caused by CD73 deficiency (ACDC)), in which premature onset arterial calcification is a prominent but not the sole feature.

Published
2011
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49. Expression of NPP1 is regulated during atheromatous plaque calcification.

Author

Nitschke Y, Hartmann S, Torsello G, Horstmann R, Seifarth H, Weissen-Plenz G, and Rutsch F

Subjects
Aged, Aged, 80 and over, Atherosclerosis metabolism, Carotid Artery Diseases metabolism, Carotid Stenosis metabolism, Down-Regulation, Female, Humans, Male, Middle Aged, Muscle, Smooth, Vascular metabolism, Osteopontin biosynthesis, Osteopontin genetics, Phosphoric Diester Hydrolases biosynthesis, Plaque, Atherosclerotic genetics, Pyrophosphatases biosynthesis, RNA, Messenger biosynthesis, Carotid Arteries metabolism, Phosphoric Diester Hydrolases genetics, Phosphoric Diester Hydrolases metabolism, Plaque, Atherosclerotic metabolism, Pyrophosphatases genetics, Pyrophosphatases metabolism, Vascular Calcification metabolism
Abstract

Mutations of the ENPP1 gene encoding ecto-nucleotide pyrophosphatase/phosphodiesterase 1 (NPP1) are associated with medial calcification in infancy. While the inhibitory role of matrix proteins such as osteopontin (OPN) with respect to atherosclerotic plaque calcification has been established, the role of NPP1 in plaque calcification is not known. We assessed the degree of plaque calcification (computed tomography), NPP1 and OPN localization (immunohistochemistry) and expression (RT-PCR) in a cohort of 45 patients undergoing carotid endatherectomy for significant stenosis of the internal carotid artery and in normal arteries (N= 50). We correlated NPP1 and OPN expression levels to the degree of plaque calcification, to pro-atherogenic factors and statin therapy. NPP1 was demonstrated in the base and in the shoulder of atherosclerotic plaques. Compared to normal arteries and non-calcified plaques, in calcified plaques NPP1 mRNA was decreased (P < 0.0001). OPN mRNA levels were up-regulated in carotid atheroma. NPP1 and OPN expression levels positively correlated with the degree of plaque calcification (R= 0.54, P= 0.00019 and R= 0.46, P= 0.017, respectively) and with risk factors of atherosclerosis. Expression of the calcification inhibitor NPP1 is down-regulated in calcified atherosclerotic plaques. Our correlation data point to a counter-active mechanism, which in the end turns out to be insufficient to prevent further progression of calcification., (© 2011 The Authors Journal of Cellular and Molecular Medicine © 2011 Foundation for Cellular and Molecular Medicine/Blackwell Publishing Ltd.)

Published
2011
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50. Generalized Arterial Calcification of Infancy: Fatal Clinical Course Associated with a Novel Mutation in ENPP1.

Author

Galletti S, Nitschke Y, Malavolti AM, Aquilano G, Faldella G, Corvaglia L, and Rutsch F

Abstract

Generalized arterial calcification of infancy (GACI) is a rare condition characterized by arterial calcification within the internal elastic lamina associated with intimal proliferation, leading to stenosis of great and medium-sized vessels. This disease, caused by mutations in multiple exons of ENPP1, frequently results in death in infancy. Nowadays, the most promising therapeutic compounds for this rare disease are bisphosphonates. We describe a case of GACI associated with the novel mutation c.653A>T (p.D218V) in ENPP1 on both alleles. The male infant was delivered prematurely and developed heart failure, severe hypertension, and diffuse calcifications of all arterial districts. He was treated with etidronate (18 mg/kg/day); however, the clinical condition did not improve, and a resolution of calcifications was not observed. The infant died within the 6th month of life of ischemic heart failure. We conclude that even if the diagnosis of GACI is established early and bisphosphonate treatment is started early, the prognosis can be very poor.

Published
2011
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