Your search keyword '"Ectopic mineralization"' showing total 183 results

1. Gingival proteomics reveals the role of TGF beta and YAP/TAZ signaling in Raine syndrome fibrosis

Author

Costa, Cláudio Rodrigues Rezende, Chalgoumi, Rym, Baker, Amina, Guillou, Clément, Yamaguti, Paulo Marcio, Simancas Escorcia, Victor, Abbad, Lilia, Amorin, Bruna Rabelo, de Lima, Caroline Lourenço, Cannaya, Vidjea, Benassarou, Mourad, Berdal, Ariane, Chatziantoniou, Christos, Cases, Olivier, Cosette, Pascal, Kozyraki, Renata, and Acevedo, Ana Carolina

Published

2024

2. Inflammation-associated ectopic mineralization

Author

Jing-Han Song, Ming-Yi Liu, Yu-Xuan Ma, Qian-Qian Wan, Jing Li, Xiao-Ou Diao, and Li-Na Niu

Subjects

Immune cells, Inflammatory mediators, Osteogenic signaling pathways, Ectopic mineralization, Inflammatory conditions, Anti-inflammatory treatments, Science (General), Q1-390

Abstract

Ectopic mineralization refers to the deposition of mineralized complexes in the extracellular matrix of soft tissues. Calcific aortic valve disease, vascular calcification, gallstones, kidney stones, and abnormal mineralization in arthritis are common examples of ectopic mineralization. They are debilitating diseases and exhibit excess mortality, disability, and morbidity, which impose on patients with limited social or financial resources. Recent recognition that inflammation plays an important role in ectopic mineralization has attracted the attention of scientists from different research fields. In the present review, we summarize the origin of inflammation in ectopic mineralization and different channels whereby inflammation drives the initiation and progression of ectopic mineralization. The current knowledge of inflammatory milieu in pathological mineralization is reviewed, including how immune cells, pro-inflammatory mediators, and osteogenic signaling pathways induce the osteogenic transition of connective tissue cells, providing nucleating sites and assembly of aberrant minerals. Advances in the understanding of the underlying mechanisms involved in inflammatory-mediated ectopic mineralization enable novel strategies to be developed that may lead to the resolution of these enervating conditions.

Published

2023

3. Ectopic Mineralization Following Liver Transplantation—Mechanisms, Risks, and Management: A Review

Author

Radhakrishnan, Subathra, Martin, Catherine Ann, Dhayanithy, Geethanjali, Jana, Koustav, Jothimani, Dinesh, Izatulina, Alina R., Kalkura, Narayana Subbaraya, Rela, Mohamed, Bezaeva, Natalia S., Series Editor, Gomes Coe, Heloisa Helena, Series Editor, Nawaz, Muhammad Farrakh, Series Editor, Frank-Kamenetskaya, Olga V., editor, Vlasov, Dmitry Yu., editor, Panova, Elena G., editor, and Alekseeva, Tatiana V., editor

Published

2023

4. Plasma Level of Pyrophosphate Is Low in Pseudoxanthoma Elasticum Owing to Mutations in the ABCC6 Gene, but It Does Not Correlate with ABCC6 Genotype.

Author

Kozák, Eszter, Bartstra, Jonas W., de Jong, Pim A., Mali, Willem P. T. M., Fülöp, Krisztina, Tőkési, Natália, Pomozi, Viola, Risseeuw, Sara, Norel, Jeannette Ossewaarde-van, van Leeuwen, Redmer, Váradi, András, and Spiering, Wilko

Subjects

*GENETIC mutation, *GENOTYPES, *CALCIPHYLAXIS, *PROTEIN structure, *CHROMOSOMES, *PHENOTYPES

Abstract

Background: Pseudoxanthoma elasticum (PXE), a monogenic disorder resulting in calcification affecting the skin, eyes and peripheral arteries, is caused by mutations in the ABCC6 gene, and is associated with low plasma inorganic pyrophosphate (PPi). It is unknown how ABCC6 genotype affects plasma PPi. Methods: We studied the association of ABCC6 genotype (192 patients with biallelic pathogenic ABCC6 mutations) and PPi levels, and its association with the severity of arterial and ophthalmological phenotypes. ABCC6 variants were classified as truncating or non-truncating, and three groups of the 192 patients were formed: those with truncating mutations on both chromosomes (n = 121), those with two non-truncating mutations (n = 10), and a group who had one truncating and one non-truncating ABCC6 mutation (n = 61). The hypothesis formulated before this study was that there was a negative association between PPi level and disease severity. Results: Our findings confirm low PPi in PXE compared with healthy controls (0.53 ± 0.15 vs. 1.13 ± 0.29 µM, p < 0.01). The PPi of patients correlated with increasing age (β: 0.05 µM, 95% CI: 0.03–0.06 per 10 years) and was higher in females (0.55 ± 0.17 vs. 0.51 ± 0.13 µM in males, p = 0.03). However, no association between PPi and PXE phenotypes was found. When adjusted for age and sex, no association between PPi and ABCC6 genotype was found. Conclusions: Our data suggest that the relationship between ABCC6 mutations and reduced plasma PPi may not be as direct as previously thought. PPi levels varied widely, even in patients with the same ABCC6 mutations, further suggesting a lack of direct correlation between them, even though the ABCC6 protein-mediated pathway is responsible for ~60% of this metabolite in the circulation. We discuss potential factors that may perturb the expected associations between ABCC6 genotype and PPi and between PPi and disease severity. Our findings support the argument that predictions of pathogenicity made on the basis of mutations (or on the structure of the mutated protein) could be misleading. [ABSTRACT FROM AUTHOR]

Published

2023

5. A new enzymatic assay to quantify inorganic pyrophosphate in plasma.

Author

Lundkvist, Stefan, Niaziorimi, Fatemeh, Szeri, Flora, Caffet, Matthew, Terry, Sharon F., Johansson, Gunnar, Jansen, Robert S., and van de Wetering, Koen

Subjects

*PYROPHOSPHATES, *CHRONIC kidney failure, *BLOOD plasma, *BLOOD collection, *BIOLUMINESCENCE

Abstract

Inorganic pyrophosphate (PPi) is a crucial extracellular mineralization regulator. Low plasma PPi concentrations underlie the soft tissue calcification present in several rare hereditary mineralization disorders as well as in more common conditions like chronic kidney disease and diabetes. Even though deregulated plasma PPi homeostasis is known to be linked to multiple human diseases, there is currently no reliable assay for its quantification. We here describe a PPi assay that employs the enzyme ATP sulfurylase to convert PPi into ATP. Generated ATP is subsequently quantified by firefly luciferase–based bioluminescence. An internal ATP standard was used to correct for sample-specific interference by matrix compounds on firefly luciferase activity. The assay was validated and shows excellent precision (< 3.5%) and accuracy (93–106%) of PPi spiked into human plasma samples. We found that of several anticoagulants tested only EDTA effectively blocked conversion of ATP into PPi in plasma after blood collection. Moreover, filtration over a 300,000-Da molecular weight cut-off membrane reduced variability of plasma PPi and removed ATP present in a membrane-enclosed compartment, possibly platelets. Applied to plasma samples of wild-type and Abcc6−/− rats, an animal model with established low circulating levels of PPi, the new assay showed lower variability than the assay that was previously in routine use in our laboratory. In conclusion, we here report a new and robust assay to determine PPi concentrations in plasma, which outperforms currently available assays because of its high sensitivity, precision, and accuracy. [ABSTRACT FROM AUTHOR]

Published

2023

6. Case report: A rare homozygous variation in the ENPP1 gene, presenting with generalized arterial calcification of infancy in a Chinese infant

Author

Pengtao Lu, Jinglong Chen, Mei Chen, Ling Wang, Dandan Xiang, Jie Yin, and Shiwei Yang

Subjects

generalized arterial calcification of infancy, ENPP1, early-onset of hypertension, arterial calcification, ectopic mineralization, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Generalized arterial calcification of infancy (GACI) is a rare genetic disease characterized by arterial calcifications or stenoses and hypertension. GACI is caused by mutations in the ENPP1 or ABCC6 genes, and it often causes intrauterine or early infancy death. Here, we report a case of rare GACI caused by a homozygous variation in ENPP1, in a Chinese infant initially presenting with hypertension. The proband was an 8-month-old boy with in utero tricuspid valve calcification, presenting with hypertension at birth. Enhanced computed tomography revealed extensive arterial calcification. Genetic testing identified a homozygous variation in ENPP1 (c.783C > G p.Y261X), which led to the diagnosis of GACI. This mutation has been reported in only three Chinese patients, which all initially presented with hypophosphatemic rickets rather than GACI. This case enriches the clinical and genetic spectrum of ENPP1 mutations and reminds us that GACI should be considered in an infant presenting with hypertension and extensive arterial calcification, and that genetic testing should be performed.

Published

2023

7. Downregulation of TGF-β1 in fibro-adipogenic progenitors initiates muscle ectopic mineralization.

Author

Li, La, Li, Dai, Zhu, Jingxian, Wang, Yiqun, Zhao, Feng, Cheng, Jin, Tuan, Rocky S, Hu, Xiaoqing, and Ao, Yingfang

Abstract

In previous studies, we have demonstrated that stress response-induced high glucocorticoid levels could be the underlying cause of traumatic heterotopic ossification (HO), and we have developed a glucocorticoid-induced ectopic mineralization (EM) mouse model by systemic administration of a high dose of dexamethasone (DEX) to animals with muscle injury induced by cardiotoxin injection. In this model, dystrophic calcification (DC) developed into HO in a cell autonomous manner. However, it is not clear how DC is formed after DEX treatment. Therefore, in this study, we aimed to explore how glucocorticoids initiate muscle EM at a cellular and molecular level. We showed that DEX treatment inhibited inflammatory cell infiltration into injured muscle but inflammatory cytokine production in the muscle was significantly increased, suggesting that other non-inflammatory muscle cell types may regulate the inflammatory response and the muscle repair process. Accompanying this phenotype, transforming growth factor β1 (TGF-β1) expression in fibro-adipogenic progenitors (FAPs) was greatly downregulated. Since TGF-β1 is a strong immune suppressor and FAP's regulatory role has a large impact on muscle repair, we hypothesized that downregulation of TGF-β1 in FAPs after DEX treatment resulted in this hyperinflammatory state and subsequent failed muscle repair and EM formation. To test our hypothesis, we utilized a transgenic mouse model to specifically knockout Tgfb1 gene in PDGFRα-positive FAPs to investigate if the transgenic mice could recapitulate the phenotype that was induced by DEX treatment. Our results showed that the transgenic mice completely phenocopied this hyperinflammatory state and spontaneously developed EM following muscle injury. On the contrary, therapeutics that enhanced TGF-β1 signaling in FAPs inhibited the inflammatory response and attenuated muscle EM. In summary, these results indicate that FAPs-derived TGF-β1 is a key molecule in regulating muscle inflammatory response and subsequent EM, and that glucocorticoids exert their effect via downregulating TGF-β1 in FAPs. Lay Summary: Heterotopic ossification (HO) is abnormal bone formation in soft tissue. Glucocorticoids, which have strong anti-inflammatory properties, have usually been used as HO therapeutics. However, our findings suggest that glucocorticoids can also promote HO formation. In this study, we tried to explain the underlying reason for these seemingly contradictory observations. We showed that glucocorticoids, in addition to exerting an anti-inflammatory effect on inflammatory cells, can also target another type of muscle cell to exert a proinflammatory effect. These cells are called fibro-adipogenic progenitors (FAPs), and we demonstrated that FAPs played a master regulatory role in the muscle inflammatory response by modulating the expression of transforming growth factor β1 (TGF-β1), a well-known immune suppressor. In summary, our findings highlighted the importance of FAP TGF-β1 levels in affecting the progression and regression of muscle HO and provided new treatment options for HO based on their ability to elevate TGF-β1 levels in FAPs. [ABSTRACT FROM AUTHOR]

Published

2024

8. Cutaneous Gamna‐Gandy bodies: An unusual case of dystrophic calcification.

Author

Sanford, Jeffrey A., Strausborger, Stacy L., Lewin‐Smith, Michael R., and Royer, Michael C.

Subjects

*CALCIFICATION, *FOURIER transform infrared spectroscopy, *SCANNING electron microscopy, *X-ray emission spectroscopy

Abstract

Dystrophic calcification is a common histopathologic finding that can be concomitant with a plethora of diseases, ranging from self‐limited infections to insidious malignancies. Gamna‐Gandy bodies (GGBs) are a form of dystrophic calcification associated with chronic hemolysis and are typically observed in the spleen. In this report, we present the case of a 92‐year‐old man who presented with a 4‐mm blue papule that was biopsied given the concern for a blue nevus. The subsequent histopathologic examination of the biopsy specimen showed a dermal organizing hematoma adjacent to pale‐yellow to brown, refractile material within fibrotic collagen consistent with GGBs. Scanning electron microscopy with energy‐dispersive x‐ray analysis (SEM/EDXA) revealed that the structures were composed of carbon (39%), oxygen (32%), iron (16%), phosphorus (7%), calcium (5%), and sodium (1%). Fourier transform infrared spectroscopy identified amorphous calcium phosphate. GGBs have not been previously described in the skin and have been rarely characterized with SEM/EDXA in other sites. [ABSTRACT FROM AUTHOR]

Published

2022

9. Pseudoxanthoma elasticumban szenvedő betegek multidiszciplináris ellátása.

Author

Farkas, Klára, Kiss, Norbert, Szabó, Viktória, Resch, Miklós, Vámos, Rita, Borbándy, Ágnes, Nagy, Anikó, Apor, Astrid, Arányi, Tamás, Szeri, Flóra, Wikonkál, Norbert, Nagy, Zoltán, Merkely, Béla, and Medvecz, Márta

Abstract

Copyright of Hungarian Medical Journal / Orvosi Hetilap is the property of Akademiai Kiado and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

10. Oral supplementation of inorganic pyrophosphate in pseudoxanthoma elasticum.

Author

Kozák, Eszter, Fülöp, Krisztina, Tőkési, Natália, Rao, Nidhi, Li, Qiaoli, Terry, Sharon F., Uitto, Jouni, Zhang, Xiaoming, Becker, Cyrus, Váradi, András, and Pomozi, Viola

Subjects

*DIETARY supplements, *PYROPHOSPHATES, *KIDNEY calcification, *BURNING mouth syndrome, *ARTERIAL calcification, *CHRONIC kidney failure, *GENETIC disorders, *CALCIFICATION

Abstract

Pseudoxanthoma elasticum (PXE; OMIM 264800) is a rare heritable multisystem disorder, characterized by ectopic mineralization affecting elastic fibres in the skin, eyes and the cardiovascular system. Skin findings often lead to early diagnosis of PXE, but currently, no specific treatment exists to counteract the progression of symptoms. PXE belongs to a group of Mendelian calcification disorders linked to pyrophosphate metabolism, which also includes generalized arterial calcification of infancy (GACI) and arterial calcification due to CD73 deficiency (ACDC). Inactivating mutations in ABCC6, ENPP1 and NT5E are the genetic cause of these diseases, respectively, and all of them result in reduced inorganic pyrophosphate (PPi) concentration in the circulation. Although PPi is a strong inhibitor of ectopic calcification, oral supplementation therapy was initially not considered because of its low bioavailability. Our earlier work however demonstrated that orally administered pyrophosphate inhibits ectopic calcification in the animal models of PXE and GACI, and that orally given Na4P2O7 is absorbed in humans. Here, we report that gelatin‐encapsulated Na2H2P2O7 has similar absorption properties in healthy volunteers and people affected by PXE. The sodium‐free K2H2P2O7 form resulted in similar uptake in healthy volunteers and inhibited calcification in Abcc6−/− mice as effectively as its sodium counterpart. Novel pyrophosphate compounds showing higher bioavailability in mice were also identified. Our results provide an important step towards testing oral PPi in clinical trials in PXE, or potentially any condition accompanied by ectopic calcification including diabetes, chronic kidney disease or ageing. [ABSTRACT FROM AUTHOR]

Published

2022

11. Inorganic pyrophosphate is reduced in patients with systemic sclerosis.

Author

Hsu, Vivien M, Kozák, Eszter, Li, Qiaoli, Bocskai, Márta, Schlesinger, Naomi, Rosenthal, Ann, McClure, Scott T, Kovács, László, Bálint, László, Szamosi, Szilvia, Szücs, Gabriella, Carns, Mary, Aren, Kathleen, Goldberg, Isaac, Váradi, András, and Varga, John

Subjects

*PHOSPHATE metabolism, *HYDROXYAPATITE, *SYSTEMIC scleroderma, *CALCINOSIS, *MINERALS, *OUTPATIENT services in hospitals, *PHOSPHATES, *DISEASE complications

Abstract

Objective The pathogenesis of calcinosis cutis, a disabling complication of SSc, is poorly understood and effective treatments are lacking. Inorganic pyrophosphate (PPi) is a key regulator of ectopic mineralization, and its deficiency has been implicated in ectopic mineralization disorders. We therefore sought to test the hypothesis that SSc may be associated with reduced circulating PPi, which might play a pathogenic role in calcinosis cutis. Methods Subjects with SSc and age-matched controls without SSc were recruited from the outpatient rheumatology clinics at Rutgers and Northwestern Universities (US cohort), and from the Universities of Szeged and Debrecen (Hungarian cohort). Calcinosis cutis was confirmed by direct palpation, by imaging or both. Plasma PPi levels were determined in platelet-free plasma using ATP sulfurylase to convert PPi into ATP in the presence of excess adenosine 5' phosphosulfate. Results Eighty-one patients with SSc (40 diffuse cutaneous, and 41 limited cutaneous SSc) in the US cohort and 45 patients with SSc (19 diffuse cutaneous and 26 limited cutaneous SSc) in the Hungarian cohort were enrolled. Calcinosis was frequently detected (40% of US and 46% of the Hungarian cohort). Plasma PPi levels were significantly reduced in both SSc cohorts with and without calcinosis (US: P  = 0.003; Hungarian: P  < 0.001). Conclusions Circulating PPi are significantly reduced in SSc patients with or without calcinosis. Reduced PPi may be important in the pathophysiology of calcinosis and contribute to tissue damage with chronic SSc. Administering PPi may be a therapeutic strategy and larger clinical studies are planned to confirm our findings. [ABSTRACT FROM AUTHOR]

Published

2022

12. Abcc6 Null Mice—a Model for Mineralization Disorder PXE Shows Vertebral Osteopenia Without Enhanced Intervertebral Disc Calcification With Aging

Author

Paige K. Boneski, Vedavathi Madhu, Ryan E. Tomlinson, Irving M. Shapiro, Koen van de Wetering, and Makarand V. Risbud

Subjects

ectopic mineralization, osteopenia, intervertebral disc degeneration, spine, vertebra bone, potassium citrate, Biology (General), QH301-705.5

Abstract

Chronic low back pain is a highly prevalent health condition intricately linked to intervertebral disc degeneration. One of the prominent features of disc degeneration that is commonly observed with aging is dystrophic calcification. ATP-binding cassette sub-family C member 6 (ABCC6), a presumed ATP efflux transporter, is a key regulator of systemic levels of the mineralization inhibitor pyrophosphate (PPi). Mutations in ABCC6 result in pseudoxanthoma elasticum (PXE), a progressive human metabolic disorder characterized by mineralization of the skin and elastic tissues. The implications of ABCC6 loss-of-function on pathological mineralization of structures in the spine, however, are unknown. Using the Abcc6−/− mouse model of PXE, we investigated age-dependent changes in the vertebral bone and intervertebral disc. Abcc6−/− mice exhibited diminished trabecular bone quality parameters at 7 months, which remained significantly lower than the wild-type mice at 18 months of age. Abcc6−/− vertebrae showed increased TRAP staining along with decreased TNAP staining, suggesting an enhanced bone resorption as well as decreased bone formation. Surprisingly, however, loss of ABCC6 resulted only in a mild, aging disc phenotype without evidence of dystrophic mineralization. Finally, we tested the utility of oral K3Citrate to treat the vertebral phenotype since it is shown to regulate hydroxyapatite mechanical behavior. The treatment resulted in inhibition of the osteoclastic response and an early improvement in mechanical properties of the bone underscoring the promise of potassium citrate as a therapeutic agent. Our data suggest that although ectopic mineralization is tightly regulated in the disc, loss of ABCC6 compromises vertebral bone quality and dysregulates osteoblast-osteoclast coupling.

Published

2022

13. Severe Hydroxyapatite Deposition Disease in Binturongs (Arctictis binturong).

Author

Takehana, Kazuya, Moresco, Anneke, Johnson III, James G., Kasahara, Masaaki, Kasahara, Norio, and Han, Sushan

Subjects

HYDROXYAPATITE, KIDNEY tubules, CALCINOSIS, SMOOTH muscle, DIAGNOSIS, STERNUM

Abstract

In a collection of 6 young binturongs (Arctictis binturong), 3 presented with anorexia, lethargy, and footpad swelling diagnosed by surgical biopsy as calcinosis circumscripta. Despite supportive care over the next 4 years, affected binturongs had progressive weight loss, hyperphosphatemia, and hyperkalemia and developed large radiodense deposits in tissues adjacent to appendicular joints, thoracolumbar vertebrae, and the sternum. Two binturongs died and necropsies showed severe periarticular mineral deposition with fibrosis and granulomatous inflammation. Additionally, binturongs had mineralization of distal renal tubules, mineralization of the renal interstitium, and marked mineralization of the pulmonary interstitium and peribronchiolar smooth muscle. Foot biopsies from the surviving binturong were evaluated by spectroscopic microanalysis and were positive for hydroxyapatite, Ca10(PO4)6(OH)2. Periarticular and footpad mineralization in these binturongs is consistent with hydroxyapatite deposition disease, which is rarely described in humans and animals as a primary familial condition or a secondary condition often associated with renal injury. [ABSTRACT FROM AUTHOR]

Published

2021

14. Pseudoxanthoma elasticum overlaps hereditary spastic paraplegia type 56.

Author

Legrand, A., Pujol, C., Durand, C. M., Mesnil, A., Rubera, I., Duranton, C., Zuily, S., Sousa, A. B., Renaud, M., Boucher, J. L., Pietrancosta, N., Adham, S., Orssaud, C., Marelli, C., Casali, C., Ziccardi, L., Villain, N., Ewenczyk, C., Durr, A., and Mignot, C.

Subjects

*FAMILIAL spastic paraplegia, *GENETIC testing, *PHENOTYPES, *FUNCTIONAL analysis, *RESEARCH, *GENETIC mutation, *SKIN, *RESEARCH methodology, *RETROSPECTIVE studies, *MEDICAL cooperation, *EVALUATION research, *CONNECTIVE tissue diseases, *EYE, *COMPARATIVE studies, *CALCINOSIS, *RESEARCH funding, *EPITHELIAL cells, *CARRIER proteins, *HEMOPROTEINS

Abstract

Purpose: Pseudoxanthoma elasticum (PXE) is a recessive disorder involving skin, eyes and arteries, mainly caused by ABCC6 pathogenic variants. However, almost one fifth of patients remain genetically unsolved despite extensive genetic screening of ABCC6, as illustrated in a large French PXE series of 220 cases. We searched for new PXE gene(s) to solve the ABCC6-negative patients.Methods: First, family-based exome sequencing was performed, in one ABCC6-negative PXE patient with additional neurological features, and her relatives. CYP2U1, involved in hereditary spastic paraplegia type 56 (SPG56), was selected based on this complex phenotype, and the presence of two candidate variants. Second, CYP2U1 sequencing was performed in a retrospective series of 46 additional ABCC6-negative PXE probands. Third, six additional SPG56 patients were evaluated for PXE skin and eye phenotype. Additionally, plasma pyrophosphate dosage and functional analyses were performed in some of these patients.Results: 6.4% of ABCC6-negative PXE patients (n = 3) harboured biallelic pathogenic variants in CYP2U1. PXE skin lesions with histological confirmation, eye lesions including maculopathy or angioid streaks, and various neurological symptoms were present. CYP2U1 missense variants were confirmed to impair protein function. Plasma pyrophosphate levels were normal. Two SPG56 patients (33%) presented some phenotypic overlap with PXE.Conclusion: CYP2U1 pathogenic variants are found in unsolved PXE patients with neurological findings, including spastic paraplegia, expanding the SPG56 phenotype and highlighting its overlap with PXE. The pathophysiology of ABCC6 and CYP2U1 should be explored to explain their respective role and potential interaction in ectopic mineralization. [ABSTRACT FROM AUTHOR]

Published

2021

15. Editorial: Calcium: An Overview From Physiology to Pathological Mineralization.

Author

Zhukouskaya, Volha V. and Bardet, Claire

Subjects

PATHOLOGICAL physiology, CALCIUM, EXTRACELLULAR matrix proteins, BONE cysts, PARATHYROID hormone-related protein, MINERALIZATION, TOOTH demineralization

Abstract

Calcium, together with phosphate, also participates in the mineralization of calcified tissues where bones act as calcium storage site, intimately linked with the preservation of calcium balance within the non-bone tissues of the body. Keywords: calcium; vitamin D; parathyroid hormone; kidney; dental fluorosis; denosumab; ectopic mineralization; enamel renal syndrome EN calcium vitamin D parathyroid hormone kidney dental fluorosis denosumab ectopic mineralization enamel renal syndrome 1 3 3 06/29/22 20220624 NES 220624 Widely involved in cell signalling, either by direct signal transduction or acting as a second-messenger, calcium regulates a large range of physiological cell functions and processes including regulatory effects on many enzymes and proteins, muscle contraction, neuronal transmission and genesis, cellular motility and growth. PTH promotes the synthesis of 1,25(OH) 2 D in the kidney leading to the increase of intestinal calcium absorption and to a feedback loop inhibition of PTH secretion. [Extracted from the article]

Published

2022

16. Plasma Inorganic Pyrophosphate Deficiency Links Multiparity to Cardiovascular Disease Risk

Author

Almudena Veiga-Lopez, Visalakshi Sethuraman, Nastassia Navasiolava, Barbara Makela, Isoken Olomu, Robert Long, Koen van de Wetering, Ludovic Martin, Tamas Aranyi, and Flora Szeri

Subjects

cardiovascular disease risk, ectopic mineralization, alkaline phosphatase, pregnancy, pseudoxanthoma elasticum, vascular calcification, Biology (General), QH301-705.5

Abstract

Epidemiological studies indicate that elevated alkaline phosphatase activity is associated with increased cardiovascular disease risk. Other epidemiological data demonstrate that mothers giving multiple childbirths (multipara) are also at increased risk of developing late-onset cardiovascular disease. We hypothesized that these two associations stem from a common cause, the insufficient plasma level of the ectopic mineralization inhibitor inorganic pyrophosphate, which is a substrate of alkaline phosphatase. As alkaline phosphatase activity is elevated in pregnancy, we hypothesized that pyrophosphate concentrations decrease gestationally, potentially leading to increased maternal vascular calcification and cardiovascular disease risk in multipara. We investigated plasma pyrophosphate kinetics pre- and postpartum in sheep and at term in humans and demonstrated its shortage in pregnancy, mirroring alkaline phosphatase activity. Next, we tested whether multiparity is associated with increased vascular calcification in pseudoxanthoma elasticum patients, characterized by low intrinsic plasma pyrophosphate levels. We demonstrated that these patients had increased vascular calcification when they give birth multiple times. We propose that transient shortages of pyrophosphate during repeated pregnancies might contribute to vascular calcification and multiparity-associated cardiovascular disease risk threatening hundreds of millions of healthy women worldwide. Future trials are needed to assess if gestational pyrophosphate supplementation might be a suitable prophylactic treatment to mitigate maternal cardiovascular disease risk in multiparous women.

Published

2020

17. Inhibition of Ectopic Mineralization with Mineral-Binding Peptide

Author

McGoldrick, Samantha

Subjects

ectopic mineralization, mineral-binding peptide, heterotopic ossification, osteogenesis, peptide, mineralization inhibition

Abstract

Ectopic mineralization describes the formation of unwanted and non-physiological mineralization that primarily affects soft tissues and results in pain and dysfunction. Though ectopic mineralization is often one component of a larger disease state (e.g. coronary arterial calcification, kidney stones, calcific tendinitis, heterotopic ossification), intensifying ectopic mineralization is associated with worsening patient outcomes. However, the etiologies of most of these disease states are not fully known, complicating the search for disease-specific therapeutic approaches. Therefore, directly targeting and mitigating ectopic mineralization itself is proposed as an additional therapeutic strategy with broad potential application. The work presented in this thesis investigates a phage display-derived mineral-binding peptide (pVTK, VTKHLNQI(p)SQ(p)SY, where p denotes phosphorylation of the serine residues) for the inhibition of ectopic mineralization. It was hypothesized that pVTK could inhibit ectopic mineralization regardless of disease state and that pVTK physically restricts mineral formation and growth to achieve inhibition. These hypotheses were tested in two disease states involving ectopic mineralization, one involving the off-target effects of an exogenous osteogenic promoter and the other involving downstream effects of a genetically modified osteogenic signaling pathway. BMP2 (bone morphogenetic protein 2) is a major regulator of osteogenic differentiation and is FDA-approved for augmentation of bone regeneration in specific surgical applications. However, due to implant mishandling and off-label usage, there are major side effects, including ectopic mineralization. In this thesis, pVTK was shown to inhibit BMP2-stimulated mineralization in vitro and in vivo. In culture, pVTK did not disrupt osteoblast recognition of exogenous BMP2, nor did pVTK compete with BMP2 for control over osteogenic differentiation. Since BMP2 therapies are designed to aid bone regeneration, it was important to demonstrate that pVTK would not decrease BMP2 efficiency by interfering with BMP2 signaling. In vivo, pVTK reduced ectopic mineral formation by 92%. Further, pVTK disrupted spontaneous mineral deposition in the absence of cells, demonstrating that pVTK does not rely on cell-mediated mineralization mechanisms for inhibition. Since pVTK’s inhibition is not reliant on a specific cellular pathway, pVTK would not be considered disease-specific, and therefore broadly applicable for inhibiting ectopic mineralization. Ectopic mineralization is the hallmark of heterotopic ossification (HO), a disease state involving endochondral ossification of soft tissue, and fibrodysplasia ossificans progressiva (FOP), a genetic disorder in which regulation of the osteogenic BMP pathway is impaired. In this thesis, pVTK was shown to reduce ectopic mineralization by 61% in an animal model of HO that utilizes an activatable genetic mutation inspired by FOP. pVTK treatment also resulted in more fragmented ectopic mineral with no change in overall density, supporting the hypothesis that pVTK acts directly on mineral assembly and formation to achieve inhibition. New micro computed tomography methods for assessing the morphology of ectopic mineral deposits were introduced, demonstrating alternative qualitative methods for evaluating amorphous 3D structures. Altogether, this work demonstrated the potential for pVTK as a broadly applied therapeutic for ectopic mineralization. In addition, controlled release delivery systems were piloted for improving pVTK delivery in each disease state: an injectable collagen-alginate hydrogel for delivery alongside BMP2-loaded implants and PLGA (poly-co-lactic-glycolic acid) particles for minimizing intramuscular injections in HO/FOP. Further, based on pVTK’s high affinity for mineralized substrates and pVTK’s unique ability to inhibit mineralization, pVTK could be applied to mineral-targeted drug delivery and musculoskeletal tissue engineering strategies.

Published

2024

18. Pseudoxanthoma elasticum

Author

Dominique P. Germain

Subjects

Pseudoxanthoma elasticum, Metabolic disease, Ectopic mineralization, Skin, Angioid streak, Choroidal neovascularization, Medicine

Abstract

Abstract Pseudoxanthoma elasticum (PXE) is a genetic metabolic disease with autosomal recessive inheritance caused by mutations in the ABCC6 gene. The lack of functional ABCC6 protein leads to ectopic mineralization that is most apparent in the elastic tissues of the skin, eyes and blood vessels. The clinical prevalence of PXE has been estimated at between 1 per 100,000 and 1 per 25,000, with slight female predominance. The first clinical sign of PXE is almost always small yellow papules on the nape and sides of the neck and in flexural areas. The papules coalesce, and the skin becomes loose and wrinkled. The mid-dermal elastic fibers are short, fragmented, clumped and calcified. Dystrophic calcification of Bruch’s membrane, revealed by angioid streaks, may trigger choroidal neovascularization and, ultimately, loss of central vision and blindness in late-stage disease. Lesions in small and medium-sized artery walls may result in intermittent claudication and peripheral artery disease. Cardiac complications (myocardial infarction, angina pectoris) are thought to be relatively rare but merit thorough investigation. Ischemic strokes have been reported. PXE is a metabolic disease in which circulating levels of an anti-mineralization factor are low. There is good evidence to suggest that the factor is inorganic pyrophosphate (PPi), and that the circulating low levels of PPi and decreased PPi/Pi ratio result from the lack of ATP release by hepatocytes harboring the mutant ABCC6 protein. However, the substrate(s) bound, transported or modulated by the ABCC6 protein remain unknown. More than 300 sequence variants of the ABCC6 gene have been identified. There is no cure for PXE; the main symptomatic treatments are vascular endothelial growth factor inhibitor therapy (for ophthalmic manifestations), lifestyle, lipid-lowering and dietary measures (for reducing vascular risk factors), and vascular surgery (for severe cardiovascular manifestations). Future treatment options may include gene therapy/editing and pharmacologic chaperone therapy.

Published

2017

19. Apoptosis in the Extraosseous Calcification Process

Author

Federica Boraldi, Francesco Demetrio Lofaro, and Daniela Quaglino

Subjects

ectopic mineralization, extracellular matrix, cell death, apoptosis, vascular tissue, cartilage, Cytology, QH573-671

Abstract

Extraosseous calcification is a pathologic mineralization process occurring in soft connective tissues (e.g., skin, vessels, tendons, and cartilage). It can take place on a genetic basis or as a consequence of acquired chronic diseases. In this last case, the etiology is multifactorial, including both extra- and intracellular mechanisms, such as the formation of membrane vesicles (e.g., matrix vesicles and apoptotic bodies), mitochondrial alterations, and oxidative stress. This review is an overview of extraosseous calcification mechanisms focusing on the relationships between apoptosis and mineralization in cartilage and vascular tissues, as these are the two tissues mostly affected by a number of age-related diseases having a progressively increased impact in Western Countries.

Published

2021

20. Association Between Dentin Matrix Protein 1 (rs10019009) Polymorphism and Ankylosing Spondylitis in a Chinese Han Population from Shandong Province

Author

Jian-Min Liu, Ya-Zhou Cui, Geng-Lin Zhang, Xiao-Yan Zhou, Jing-Xiang Pang, Xue-Zheng Wang, and Jin-Xiang Han

Subjects

Alkaline Phosphatase, Ankylosing Spondylitis, Dentin Matrix Protein 1, Ectopic Mineralization, Polymorphisms, Medicine

Abstract

Background: Ankylosing spondylitis (AS) is the most common rheumatic condition that is slowly progressive and predominantly affects adolescents. Pathological bone formation associated with AS is an important cause of disability. The aim of the study was to investigate the possible involvement of the genes related to endochondral ossification and ectopia ossification in genetic susceptibility to AS in a Chinese Han population. Methods: Sixty-eight single nucleotide polymorphisms (SNPs) from 13 genes were genotyped in discovery cohorts including 300 AS patients and 180 healthy controls. The rs10019009 in dentin matrix protein 1 (DMP1) gene shown as association with AS after multiple testing corrections in discovery cohorts was replicated in a validation independent cohort of 620 AS patients and 683 healthy controls. The rs10019009 was assessed with bioinformatics including phylogenetic context, F-SNP and FastSNP functional predictions, secondary structure prediction, and molecular modeling. We performed a functional analysis of rs10019009 via reverse transcription-polymerase chain reaction, alkaline phosphatase (ALP) activity in human osteosarcoma U 2 OS cells. Results: Interestingly, the SNP rs10019009 was associated with AS in both the discovery cohort (P = 0.0012) and validation cohort (P = 0.0349), as well as overall (P = 0.0004) in genetic case-control association analysis. After a multivariate logistic regression analysis, the effect of this genetic variant was observed to be independent of linkage disequilibrium. Via bioinformatics analysis, it was found that the amino acid change of the rs10019009 led to changes of SNP function, secondary structure, tertiary conformation, and splice mode. Finally, functional analysis of rs10019009 in U 2 OS cells demonstrated that the risk T allele of the rs10019009 increased enzymatic activity of ALP, compared to that of the nonrisk allele (P = 0.0080). Conclusions: These results suggested that the DMP1 gene seems to be involved in genetic predisposition to AS, which may contribute to the ectopic mineralization or ossification in AS. In addition, DMP1 gene may be a promising intervention target for AS in the future.

Published

2016

21. Inorganic Pyrophosphate Plasma Levels Are Decreased in Pseudoxanthoma Elasticum Patients and Heterozygous Carriers but Do Not Correlate with the Genotype or Phenotype

Author

Matthias Van Gils, Justin Depauw, Paul J. Coucke, Shari Aerts, Shana Verschuere, Lukas Nollet, and Olivier M. Vanakker

Subjects

FIBROBLASTS, MUTATIONS, ABCC6 GENE, MOUSE MODEL, General Medicine, genotype–phenotype correlation, genotype-phenotype correlation, ABCC6, heterozygous carriers, pseudoxanthoma, ALKALINE-PHOSPHATASE, ECTOPIC MINERALIZATION, inorganic pyrophosphate, Medicine and Health Sciences, biomarker, elasticum, pseudoxanthoma elasticum, GENERALIZED ARTERIAL CALCIFICATION

Abstract

Pseudoxanthoma elasticum (PXE) is a rare ectopic calcification disorder affecting soft connective tissues that is caused by biallelic ABCC6 mutations. While the underlying pathomechanisms are incompletely understood, reduced circulatory levels of inorganic pyrophosphate (PPi)—a potent mineralization inhibitor—have been reported in PXE patients and were suggested to be useful as a disease biomarker. In this study, we explored the relation between PPi, the ABCC6 genotype and the PXE phenotype. For this, we optimized and validated a PPi measurement protocol with internal calibration that can be used in a clinical setting. An analysis of 78 PXE patients, 69 heterozygous carriers and 14 control samples revealed significant differences in the measured PPi levels between all three cohorts, although there was overlap between all groups. PXE patients had a ±50% reduction in PPi levels compared to controls. Similarly, we found a ±28% reduction in carriers. PPi levels were found to correlate with age in PXE patients and carriers, independent of the ABCC6 genotype. No correlations were found between PPi levels and the Phenodex scores. Our results suggest that other factors besides PPi are at play in ectopic mineralization, which limits the use of PPi as a predictive biomarker for severity and disease progression.

Published

2023

22. Zebrafish enpp1 mutants exhibit pathological mineralization, mimicking features of generalized arterial calcification of infancy (GACI) and pseudoxanthoma elasticum (PXE)

Author

Alexander Apschner, Leonie F. A. Huitema, Bas Ponsioen, Josi Peterson-Maduro, and Stefan Schulte-Merker

Subjects

Zebrafish, Ectopic mineralization, Generalized arterial calcification of infancy, GACI, Pseudoxanthoma elasticum, PXE, Pyrophosphate, Medicine, Pathology, RB1-214

Abstract

In recent years it has become clear that, mechanistically, biomineralization is a process that has to be actively inhibited as a default state. This inhibition must be released in a rigidly controlled manner in order for mineralization to occur in skeletal elements and teeth. A central aspect of this concept is the tightly controlled balance between phosphate, a constituent of the biomineral hydroxyapatite, and pyrophosphate, a physiochemical inhibitor of mineralization. Here, we provide a detailed analysis of a zebrafish mutant, dragonfish (dgf), which is mutant for ectonucleoside pyrophosphatase/phosphodiesterase 1 (Enpp1), a protein that is crucial for supplying extracellular pyrophosphate. Generalized arterial calcification of infancy (GACI) is a fatal human disease, and the majority of cases are thought to be caused by mutations in ENPP1. Furthermore, some cases of pseudoxanthoma elasticum (PXE) have recently been linked to ENPP1. Similar to humans, we show here that zebrafish enpp1 mutants can develop ectopic calcifications in a variety of soft tissues – most notably in the skin, cartilage elements, the heart, intracranial space and the notochord sheet. Using transgenic reporter lines, we demonstrate that ectopic mineralizations in these tissues occur independently of the expression of typical osteoblast or cartilage markers. Intriguingly, we detect cells expressing the osteoclast markers Trap and CathepsinK at sites of ectopic calcification at time points when osteoclasts are not yet present in wild-type siblings. Treatment with the bisphosphonate etidronate rescues aspects of the dgf phenotype, and we detected deregulated expression of genes that are involved in phosphate homeostasis and mineralization, such as fgf23, npt2a, entpd5 and spp1 (also known as osteopontin). Employing a UAS-GalFF approach, we show that forced expression of enpp1 in blood vessels or the floorplate of mutant embryos is sufficient to rescue the notochord mineralization phenotype. This indicates that enpp1 can exert its function in tissues that are remote from its site of expression.

Published

2014

23. Pseudoxanthoma elasticum.

Author

Germain, Dominique P.

Subjects

*PSEUDOXANTHOMA elasticum, *METABOLIC disorders, *NEOVASCULARIZATION, *GENETIC mutation, *ANGIOID streaks

Abstract

Pseudoxanthoma elasticum (PXE) is a genetic metabolic disease with autosomal recessive inheritance caused by mutations in the ABCC6 gene. The lack of functional ABCC6 protein leads to ectopic mineralization that is most apparent in the elastic tissues of the skin, eyes and blood vessels. The clinical prevalence of PXE has been estimated at between 1 per 100,000 and 1 per 25,000, with slight female predominance. The first clinical sign of PXE is almost always small yellow papules on the nape and sides of the neck and in flexural areas. The papules coalesce, and the skin becomes loose and wrinkled. The mid-dermal elastic fibers are short, fragmented, clumped and calcified. Dystrophic calcification of Bruch's membrane, revealed by angioid streaks, may trigger choroidal neovascularization and, ultimately, loss of central vision and blindness in late-stage disease. Lesions in small and medium-sized artery walls may result in intermittent claudication and peripheral artery disease. Cardiac complications (myocardial infarction, angina pectoris) are thought to be relatively rare but merit thorough investigation. Ischemic strokes have been reported. PXE is a metabolic disease in which circulating levels of an anti-mineralization factor are low. There is good evidence to suggest that the factor is inorganic pyrophosphate (PPi), and that the circulating low levels of PPi and decreased PPi/Pi ratio result from the lack of ATP release by hepatocytes harboring the mutant ABCC6 protein. However, the substrate(s) bound, transported or modulated by the ABCC6 protein remain unknown. More than 300 sequence variants of the ABCC6 gene have been identified. There is no cure for PXE; the main symptomatic treatments are vascular endothelial growth factor inhibitor therapy (for ophthalmic manifestations), lifestyle, lipid-lowering and dietary measures (for reducing vascular risk factors), and vascular surgery (for severe cardiovascular manifestations). Future treatment options may include gene therapy/editing and pharmacologic chaperone therapy. [ABSTRACT FROM AUTHOR]

Published

2017

24. Atherogenic Diet Accelerates Ectopic Mineralization in a Mouse Model of Pseudoxanthoma Elasticum

Author

Jing-Yi Zhao, Qiaoli Li, Jouni Uitto, Ida Joely Jacobs, Joshua Kingman, and Yi Cao

Subjects

0301 basic medicine, medicine.medical_specialty, Offspring, mouse model, chemistry.chemical_element, ABCC6, Dermatology, Calcium, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, medicine.artery, Internal medicine, lcsh:Dermatology, Medicine, pseudoxanthoma elasticum, ectopic mineralization, Aorta, biology, business.industry, atherogenesis, Original Articles, lcsh:RL1-803, medicine.disease, Pseudoxanthoma elasticum, 030104 developmental biology, Infectious Diseases, Endocrinology, chemistry, biology.protein, Arterial blood, Steatosis, business, Lipoprotein

Abstract

Objective:. Pseudoxanthoma elasticum (PXE) is a multisystem heritable disorder caused by mutations in the Abcc6 gene. The disease is characterized by ectopic mineralization of the skin, eyes, and arterial blood vessels. Previous studies have suggested that cardiovascular complications in patients with PXE are caused in part by premature atherosclerosis. The aim of this study is to determine the effect of an atherogenic diet on ectopic mineralization. Methods:. We used Abcc6 tm1JfK mice (Abcc6 −/− mice) as an established preclinical model of PXE. The offspring at age of 4 weeks were divided into two groups and fed the standard control laboratory diet (control group) and the atherogenic diet. Serum lipid profiles and bile acids were measured, and steatosis and tissue mineralization were evaluated by histopathologic analysis and chemical calcium quantification assay, respectively. Results:. After 50–58 weeks of feeding an atherogenic diet, the concentrations of total cholesterol, low-density lipoprotein/very-low-density lipoprotein cholesterol, and bile acids were significantly higher in the Abcc6 −/− mice on the atherogenic diet (180.9 ± 14.8 g/L, 145.9 ± 12.9 g/L, and 9.7 ± 1.4 μmol/L, respectively) than in Abcc6 −/− mice on a control diet (85.2 ± 4.8 g/L, 25.1 ± 5.5 g/L, and 3.3 ± 0.5 μmol/L, respectively) (P

Published

2020

25. Various vascular malformations are prevalent in Finnish pseudoxanthoma elasticum (PXE) patients : a national registry study

Author

Saku Pelttari, Suvi Väärämäki, Olivier Vanakker, Shana Verschuere, Hannu Uusitalo, Heini Huhtala, Tero Hinkka, Ilkka Pörsti, Pasi I. Nevalainen, Tampere University, Verisuoni- ja toimenpideradiologinen keskus, Clinical Medicine, Eye Centre, Health Sciences, and Department of Internal medicine

Subjects

Finnish-European, Visual acuity, Genotype, Vascular Malformations, ABCC6 GENE, 3121 Internal medicine, GUIDELINES, ABCC6, DISEASE, ECTOPIC MINERALIZATION, Vascular, Medicine and Health Sciences, Genetics, Prevalence, Humans, Pharmacology (medical), COHORT, Registries, Pseudoxanthoma Elasticum, Registry study, MUTATION, Finland, Genetics (clinical), General Medicine, Inborn error of metabolism, Pseudoxanthoma elasticum, PXE, HYPOPLASIA, malformations, 3111 Biomedicine, INTERNAL CAROTID-ARTERY, STROKE

Abstract

Background Pseudoxanthoma elasticum (PXE, OMIM# 264800) is an inborn error of metabolism causing ectopic soft tissue calcification due to low plasma pyrophosphate concentration. We aimed to assess the prevalence of PXE in Finland and to characterize the Finnish PXE population. A nationwide registry search was performed to identify patients with ICD-10 code Q82.84. Information was gathered from available medical records which were requisitioned from hospitals and health centers. Misdiagnosed patients and patients with insufficient records were excluded. Results The prevalence of PXE in Finland was 1:260,000 with equal sex distribution. Patients with high conventional cardiovascular risk had more visual and vascular complications than patients with low risk. Four patients (19%) had at least one vascular malformation. A high proportion (33%) of ABCC6 genotypes were of the common homozygous c.3421C > T, p.Arg1141Ter variant. Nine other homozygous or compound heterozygous allelic variants were found. Conclusions The prevalence of diagnosed PXE appears to be lower in Finland than in estimates from other countries. Decreased visual acuity is the most prevalent complication. We suggest that various vascular malformations may be an unrecognized feature of PXE.

Published

2022

26. Plasma Level of Pyrophosphate Is Low in Pseudoxanthoma Elasticum Owing to Mutations in the ABCC6 Gene, but It Does Not Correlate with ABCC6 Genotype

Author

Eszter Kozák, Jonas W. Bartstra, Pim A. de Jong, Willem P. T. M. Mali, Krisztina Fülöp, Natália Tőkési, Viola Pomozi, Sara Risseeuw, Jeannette Ossewaarde-van Norel, Redmer van Leeuwen, András Váradi, and Wilko Spiering

Subjects

PXE, ectopic mineralization, genotype-phenotype association, General Medicine, pseudoxanthoma elasticum, plasma pyrophosphate

Abstract

Background: Pseudoxanthoma elasticum (PXE), a monogenic disorder resulting in calcification affecting the skin, eyes and peripheral arteries, is caused by mutations in the ABCC6 gene, and is associated with low plasma inorganic pyrophosphate (PPi). It is unknown how ABCC6 genotype affects plasma PPi. Methods: We studied the association of ABCC6 genotype (192 patients with biallelic pathogenic ABCC6 mutations) and PPi levels, and its association with the severity of arterial and ophthalmological phenotypes. ABCC6 variants were classified as truncating or non-truncating, and three groups of the 192 patients were formed: those with truncating mutations on both chromosomes (n = 121), those with two non-truncating mutations (n = 10), and a group who had one truncating and one non-truncating ABCC6 mutation (n = 61). The hypothesis formulated before this study was that there was a negative association between PPi level and disease severity. Results: Our findings confirm low PPi in PXE compared with healthy controls (0.53 ± 0.15 vs. 1.13 ± 0.29 µM, p < 0.01). The PPi of patients correlated with increasing age (β: 0.05 µM, 95% CI: 0.03–0.06 per 10 years) and was higher in females (0.55 ± 0.17 vs. 0.51 ± 0.13 µM in males, p = 0.03). However, no association between PPi and PXE phenotypes was found. When adjusted for age and sex, no association between PPi and ABCC6 genotype was found. Conclusions: Our data suggest that the relationship between ABCC6 mutations and reduced plasma PPi may not be as direct as previously thought. PPi levels varied widely, even in patients with the same ABCC6 mutations, further suggesting a lack of direct correlation between them, even though the ABCC6 protein-mediated pathway is responsible for ~60% of this metabolite in the circulation. We discuss potential factors that may perturb the expected associations between ABCC6 genotype and PPi and between PPi and disease severity. Our findings support the argument that predictions of pathogenicity made on the basis of mutations (or on the structure of the mutated protein) could be misleading.

Published

2023

27. Ectopic mineral formation in the prostate gland

Author

R.A.Moskalenko, A.M.Romanyuk, I-M.S.Zakorko, and A.M.Piddubny

Subjects

prostate, ectopic mineralization, concrements, pathogenesis, Biology (General), QH301-705.5

Abstract

This work analyzes the data of cont emporary scientific literature regarding the ectopic mineralization in the prostate gland, its pathogenetic features are considered. The scientific literature of recent decades gives grounds to assert that the processes of concrement formation in the prostate gland are influenced by many factors, pathological mineralization can be realized by different mechanisms. They include chronic inflammation, stagnation fract ions in gland, reflux of urine from the urethra at intravesicle obstruction, malformation of prostate and seminal vesicles, specific inflammation, polymorphism of gene protein inhibitors of calcification. These mechanisms are interconnected, each of them may participate in the overall development of concrement fo rmation in the prostate. In recent years, due to improved instrumental diagnosis we observe a significant increase of the number of patients, who were found with pathogenic prostate gland biol iths, which requires more detailed and in-depth study of the mechanisms of mineral formation in the prostate.

Published

2011

28. Editorial: Ectopic Mineralization of Tissues: Mechanisms, Risk Factors, Diseases, and Prevention

Author

Hervé Kempf, Svetlana Komarova, Monzur Murshed, Ingénierie Moléculaire et Physiopathologie Articulaire (IMoPA), Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), and McGill University = Université McGill [Montréal, Canada]

Subjects

Pathology, medicine.medical_specialty, QH301-705.5, mouse model, rare disease, Ectopic mineralization, calcification, 03 medical and health sciences, 0302 clinical medicine, [SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, [SDV.BC.IC]Life Sciences [q-bio]/Cellular Biology/Cell Behavior [q-bio.CB], pathologic, Medicine, Biology (General), ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, 0303 health sciences, business.industry, [SDV.BDD.MOR]Life Sciences [q-bio]/Development Biology/Morphogenesis, [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, Cell Biology, medicine.disease, 3. Good health, Chronic disease, [SDV.BDD.EO]Life Sciences [q-bio]/Development Biology/Embryology and Organogenesis, [SDV.MHEP.RSOA]Life Sciences [q-bio]/Human health and pathology/Rhumatology and musculoskeletal system, 030220 oncology & carcinogenesis, business, chronic disease, Rare disease, Calcification, Developmental Biology

Abstract

International audience

Published

2021

29. Tendon mineralization is progressive and associated with deterioration of tendon biomechanical properties, and requires BMP-Smad signaling in the mouse Achilles tendon injury model.

Author

Zhang, Kairui, Asai, Shuji, Hast, Michael W., Liu, Min, Usami, Yu, Iwamoto, Masahiro, Soslowsky, Louis J., and Enomoto-Iwamoto, Motomi

Subjects

*ACHILLES tendon injury treatment, *BIOMINERALIZATION, *BONE mechanics, *DISEASE progression, *BONE morphogenetic proteins, *CELL communication, *ANIMAL models in research

Abstract

Ectopic tendon mineralization can develop following tendon rupture or trauma surgery. The pathogenesis of ectopic tendon mineralization and its clinical impact have not been fully elucidated yet. In this study, we utilized a mouse Achilles tendon injury model to determine whether ectopic tendon mineralization alters the biomechanical properties of the tendon and whether BMP signaling is involved in this condition. A complete transverse incision was made at the midpoint of the right Achilles tendon in 8-week-old CD1 mice and the gap was left open. Ectopic cartilaginous mass formation was found in the injured tendon by 4 weeks post-surgery and ectopic mineralization was detected at 8 to 10 weeks post-surgery. Ectopic mineralization grew over time and volume of the mineralized materials of 25-weeks samples was about 2.5 fold bigger than that of 10-weeks samples, indicating that injury-induced ectopic tendon mineralization is progressive. In vitro mechanical testing showed that max force, max stress and mid-substance modulus in the 25-weeks samples were significantly lower than the 10-weeks samples. We observed substantial increases in expression of bone morphogenetic protein family genes in injured tendons 1 week post-surgery. Immunohistochemical analysis showed that phosphorylation of both Smad1 and Smad3 was highly increased in injured tendons as early as 1 week post-injury and remained high in ectopic chondrogenic lesions 4-weeks post-injury. Treatment with the BMP receptor kinase inhibitor (LDN193189) significantly inhibited injury-induced tendon mineralization. These findings indicate that injury-induced ectopic tendon mineralization is progressive, involves BMP signaling and associated with deterioration of tendon biomechanical properties. [ABSTRACT FROM AUTHOR]

Published

2016

30. Contribution of matrix vesicles and alkaline phosphatase to ectopic bone formation

Author

P. Ciancaglini, A.M.S. Simão, F.L. Camolezi, J.L. Millán, and J.M. Pizauro

Subjects

Matrix vesicles, Endochondral ossification, Osseous plate, Alkaline phosphatase, Ectopic mineralization, Calcification, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Endochondral calcification involves the participation of matrix vesicles (MVs), but it remains unclear whether calcification ectopically induced by implants of demineralized bone matrix also proceeds via MVs. Ectopic bone formation was induced by implanting rat demineralized diaphyseal bone matrix into the dorsal subcutaneous tissue of Wistar rats and was examined histologically and biochemically. Budding of MVs from chondrocytes was observed to serve as nucleation sites for mineralization during induced ectopic osteogenesis, presenting a diameter with Gaussian distribution with a median of 306 ± 103 nm. While the role of tissue-nonspecific alkaline phosphatase (TNAP) during mineralization involves hydrolysis of inorganic pyrophosphate (PPi), it is unclear how the microenvironment of MV may affect the ability of TNAP to hydrolyze the variety of substrates present at sites of mineralization. We show that the implants contain high levels of TNAP capable of hydrolyzing p-nitrophenylphosphate (pNPP), ATP and PPi. The catalytic properties of glycosyl phosphatidylinositol-anchored, polidocanol-solubilized and phosphatidylinositol-specific phospholipase C-released TNAP were compared using pNPP, ATP and PPi as substrates. While the enzymatic efficiency (k cat/Km) remained comparable between polidocanol-solubilized and membrane-bound TNAP for all three substrates, the k cat/Km for the phosphatidylinositol-specific phospholipase C-solubilized enzyme increased approximately 108-, 56-, and 556-fold for pNPP, ATP and PPi, respectively, compared to the membrane-bound enzyme. Our data are consistent with the involvement of MVs during ectopic calcification and also suggest that the location of TNAP on the membrane of MVs may play a role in determining substrate selectivity in this micro-compartment.

Published

2006

31. Ectopic mineralization in heart valves: new insights from in vivo and in vitro procalcific models and promising perspectives on noncalcifiable bioengineered valves

Author

Maurizio Marchini, Fulvia Ortolani, and Antonella Bonetti

Subjects

0301 basic medicine, Pulmonary and Respiratory Medicine, Procalcific models, medicine.medical_specialty, Ectopic mineralization, 030204 cardiovascular system & hematology, 03 medical and health sciences, Ectopic calcification, 0302 clinical medicine, Tissue engineering, In vivo, Bioprosthetic heart valves, Internal medicine, medicine, Aortic valve calcification, Tissue-engineered heart valves, Decellularization, business.industry, medicine.disease, In vitro, 030104 developmental biology, Cardiology, business, Calcification

Abstract

Ectopic calcification of native and bioprosthetic heart valves represents a major public health problem causing severe morbidity and mortality worldwide. Valve procalcific degeneration is known to be caused mainly by calcium salt precipitation onto membranes of suffering non-scavenged cells and dead-cell-derived products acting as major hydroxyapatite nucleators. Although etiopathogenesis of calcification in native valves is still far from being exhaustively elucidated, it is well known that bioprosthesis mineralization may be primed by glutaraldehyde-mediated toxicity for xenografts, cryopreservation-related damage for allografts and graft immune rejection for both. Instead, mechanical valves, which are free from calcification, are extremely thrombogenic, requiring chronic anticoagulation therapies for transplanted patients. Since surgical substitution of failed valves is still the leading therapeutic option, progressive improvements in tissue engineering techniques are crucial to attain readily available valve implants with good biocompatibility, proper functionality and long-term durability in order to meet the considerable clinical demand for valve substitutes. Bioengineered valves obtained from acellular non-valvular scaffolds or decellularized native valves are proving to be a compelling alternative to mechanical and bioprosthetic valve implants, as they appear to permit repopulation by the host’s own cells with associated tissue remodelling, growth and repair, besides showing less propensity to calcification and adequate hemodynamic performances. In this review, insights into valve calcification onset as revealed by in vivo and in vitro procalcific models are updated as well as advances in the field of valve bioengineering.

Published

2019

32. Genetic heterogeneity of heritable ectopic mineralization disorders in a large international cohort

Author

Jouni Uitto, Jonathan G. Schoenecker, J. Huang, Qiaoli Li, Tamara Wurst, Andrew Touati, Ellen Ryu, Sharon F. Terry, Paolo Fortina, Hassan Vahidnezhad, Leila Youssefian, Amir Hossein Saeidian, Matthew Caffet, Jagmohan Singh, Luke Kowal, and Adam E. Snook

Subjects

Genetics, Genetic heterogeneity, Mutation, Missense, Ectopic mineralization, Biology, Functional assessment, Multigene next-generation sequencing panel, Pseudoxanthoma elasticum, Variant interpretation, Article, Cohort Studies, Genetic Heterogeneity, Connective Tissue, Cohort, Humans, Pseudoxanthoma Elasticum, Genetics (clinical)

Abstract

PURPOSE: Heritable ectopic mineralization disorders comprise a group of conditions with a broad range of clinical manifestations in non-skeletal connective tissues. We report the genetic findings from a large international cohort of 478 patients afflicted with ectopic mineralization. METHODS: Sequence variations were identified using a next-generation sequencing panel consisting of 29 genes reported in association with ectopic mineralization. The pathogenicity of select splicing and missense variants was analyzed in experimental systems in vitro and in vivo. RESULTS: A total of 872 variants of unknown significance as well as likely pathogenic and pathogenic variants were disclosed in 25 genes. A total of 159 distinct variants were identified in 425 patients in ABCC6, the gene responsible for pseudoxanthoma elasticum, a heritable multi-system ectopic mineralization disorder. The interpretation of variant pathogenicity relying on bioinformatic predictions did not provide a consensus. Our in vitro and in vivo functional assessment of fourteen ABCC6 variants highlighted this dilemma and provided unambiguous interpretations to their pathogenicity. CONCLUSIONS: The results expand the ABCC6 variant repertoire, shed new light on the genetic heterogeneity of heritable ectopic mineralization disorders, and provide evidence that functional characterization in appropriate experimental systems is necessary to determine the pathogenicity of genetic variants.

Published

2021

33. Case report: A rare homozygous variation in the ENPP1 gene, presenting with generalized arterial calcification of infancy in a Chinese infant.

Author

Lu P, Chen J, Chen M, Wang L, Xiang D, Yin J, and Yang S

Abstract

Generalized arterial calcification of infancy (GACI) is a rare genetic disease characterized by arterial calcifications or stenoses and hypertension. GACI is caused by mutations in the ENPP1 or ABCC6 genes, and it often causes intrauterine or early infancy death. Here, we report a case of rare GACI caused by a homozygous variation in ENPP1 , in a Chinese infant initially presenting with hypertension. The proband was an 8-month-old boy with in utero tricuspid valve calcification, presenting with hypertension at birth. Enhanced computed tomography revealed extensive arterial calcification. Genetic testing identified a homozygous variation in ENPP1 (c.783C > G p .Y261X), which led to the diagnosis of GACI. This mutation has been reported in only three Chinese patients, which all initially presented with hypophosphatemic rickets rather than GACI. This case enriches the clinical and genetic spectrum of ENPP1 mutations and reminds us that GACI should be considered in an infant presenting with hypertension and extensive arterial calcification, and that genetic testing should be performed., 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., (© 2023 Lu, Chen, Chen, Wang, Xiang, Yin and Yang.)

Published

2023

34. Mineral content of the maternal diet influences ectopic mineralization in offspring of Abcc6 mice.

Author

Li, Qiaoli, Kingman, Joshua, and Uitto, Jouni

Published

2015

35. Adenosine derived from ecto-nucleotidases in calcific aortic valve disease promotes mineralization through A2a adenosine receptor.

Author

Mahmut, Ablajan, Boulanger, Marie-Chloé, Bouchareb, Rihab, Hadji, Fayez, and Mathieu, Patrick

Subjects

*ADENOSINES, *NUCLEOTIDASES, *AORTIC valve, *ADENOSINE kinase, *BIOMINERALIZATION, *PROTEIN kinases

Abstract

Aims In this study, we sought to determine the role of ecto-nucleotidases and adenosine receptors in calcific aortic valve disease (CAVD). The expression of ecto-nucleotidases, which modify the levels of extracellular nucleotides/nucleosides, may control the mineralization of valve interstitial cells (VICs).We hypothesized that expression of ectonucleotide pyrophosphatase/ phosphodiesterase 1 (NPP1), which generates AMP, and 5'-nucleotidase (CD73), an enzyme using AMP as a substrate to produce adenosine, may co-regulate the mineralization of the aortic valve. Methods and results We have investigated the expression of NPP1 and 5'-nucleotidase in CAVD tissues and determined the role of these ectonucleotidases on the mineralization of isolated VICs. In CAVD tissues (stenotic and sclerotic), we documented that NPP1 and 5'-nucleotidase were overexpressed by VICs. In isolated VICs, we found that mineralization induced by adenosine triphosphate was decreased by silencing NPP1 and 5'-nucleotidase, suggesting a role for adenosine. Adenosine and specific A2a adenosine receptor (A2aR) agonist increased the mineralization of VICs. Silencing of A2aR in human VICs and the use of A2aR2/2 mouse VICs confirmed that A2aR promotes the mineralization of cells. Also, A2aR-mediated mineralizationwas negated by the transfection of a mutant dominant-negative Gas vector. Through several lines of evidence, we next documented that adenosine stimulated the mineralization of VICs through a cAMP/protein kinase A (PKA)/ cAMP response element-binding protein (CREB) pathway, and found that CREB positively regulated the expression of NPP1 in a positive feedback loop by physically interacting with the promoter. Conclusion Expression of NPP1 and 5'-nucleotidase by VICs promotes the mineralization of the aortic valve through A2aR and a cAMP/PKA/CREB pathway. [ABSTRACT FROM AUTHOR]

Published

2015

36. The effects of bisphosphonates on ectopic soft tissue mineralization caused by mutations in the ABCC6 gene.

Author

Li, Qiaoli, Sundberg, John P, Levine, Michael A, Terry, Sharon F, and Uitto, Jouni

Published

2015

37. Plasma Inorganic Pyrophosphate Deficiency Links Multiparity to Cardiovascular Disease Risk.

Author

Veiga-Lopez, Almudena, Sethuraman, Visalakshi, Navasiolava, Nastassia, Makela, Barbara, Olomu, Isoken, Long, Robert, van de Wetering, Koen, Martin, Ludovic, Aranyi, Tamas, Szeri, Flóra, Veiga-Lopez, Almudena, Sethuraman, Visalakshi, Navasiolava, Nastassia, Makela, Barbara, Olomu, Isoken, Long, Robert, van de Wetering, Koen, Martin, Ludovic, Aranyi, Tamas, and Szeri, Flóra

Abstract

Epidemiological studies indicate that elevated alkaline phosphatase activity is associated with increased cardiovascular disease risk. Other epidemiological data demonstrate that mothers giving multiple childbirths (multipara) are also at increased risk of developing late-onset cardiovascular disease. We hypothesized that these two associations stem from a common cause, the insufficient plasma level of the ectopic mineralization inhibitor inorganic pyrophosphate, which is a substrate of alkaline phosphatase. As alkaline phosphatase activity is elevated in pregnancy, we hypothesized that pyrophosphate concentrations decrease gestationally, potentially leading to increased maternal vascular calcification and cardiovascular disease risk in multipara. We investigated plasma pyrophosphate kinetics pre- and postpartum in sheep and at term in humans and demonstrated its shortage in pregnancy, mirroring alkaline phosphatase activity. Next, we tested whether multiparity is associated with increased vascular calcification in pseudoxanthoma elasticum patients, characterized by low intrinsic plasma pyrophosphate levels. We demonstrated that these patients had increased vascular calcification when they give birth multiple times. We propose that transient shortages of pyrophosphate during repeated pregnancies might contribute to vascular calcification and multiparity-associated cardiovascular disease risk threatening hundreds of millions of healthy women worldwide. Future trials are needed to assess if gestational pyrophosphate supplementation might be a suitable prophylactic treatment to mitigate maternal cardiovascular disease risk in multiparous women.

Published

2020

38. Genetic deletion of Abcc6 disturbs cholesterol homeostasis in mice

Subjects

ectopic mineralization, EXPRESSION, PLANT STEROLS, PLASMA, BISPHOSPHONATES, mouse model, artery, high-density-lipoprotein, PSEUDOXANTHOMA ELASTICUM, QUANTIFICATION

Abstract

Genetic studies link adenosine triphosphate-binding cassette transporter C6 (ABCC6) mutations to pseudoxanthoma elasticum (PXE). ABCC6 sequence variations are correlated with altered HDL cholesterol levels and an elevated risk of coronary artery diseases. However, the role of ABCC6 in cholesterol homeostasis is not widely known. Here, we report reduced serum cholesterol and phytosterol levels in Abcc6-deficient mice, indicating an impaired sterol absorption. Ratios of cholesterol precursors to cholesterol were increased, confirmed by upregulation of hepatic 3-hydroxy-3-methylglutaryl coenzyme A reductase (Hmgcr) expression, suggesting activation of cholesterol biosynthesis in Abcc6(-/-) mice. We found that cholesterol depletion was accompanied by a substantial decrease in HDL cholesterol mediated by lowered ApoA-I and ApoA-II protein levels and not by inhibited lecithin-cholesterol transferase activity. Additionally, higher proprotein convertase subtilisin/kexin type 9 (Pcsk9) serum levels in Abcc6(-/-) mice and PXE patients and elevated ApoB level in knockout mice were observed, suggesting a potentially altered very low-density lipoprotein synthesis. Our results underline the role of Abcc6 in cholesterol homeostasis and indicate impaired cholesterol metabolism as an important pathomechanism involved in PXE manifestation.

Published

2021

39. Genetic deletion of Abcc6 disturbs cholesterol homeostasis in mice

Author

Ibold, Bettina, Tiemann, Janina, Faust, Isabel, Ceglarek, Uta, Dittrich, Jullia, Gorgels, Theo, Bergen, Arthur, Vanakker, Olivier, Van Gils, Matthias, Knabbe, Cornelius, Hendig, Doris, RS: MHeNs - R3 - Neuroscience, MUMC+: *AB Onderzoekers (9), Oogheelkunde, Human Genetics, Amsterdam Neuroscience - Complex Trait Genetics, and Amsterdam Reproduction & Development (AR&D)

Subjects

Adult, Male, EXPRESSION, Mice, 129 Strain, Science, mouse model, Diseases, Biochemistry, Article, Medical research, ECTOPIC MINERALIZATION, BISPHOSPHONATES, Medicine and Health Sciences, Animals, Homeostasis, Humans, ddc:610, ARTERY, Mice, Knockout, ectopic mineralization, PLANT STEROLS, PLASMA, Gene Expression Profiling, artery, MOUSE MODEL, Cholesterol, LDL, Middle Aged, high-density-lipoprotein, PSEUDOXANTHOMA ELASTICUM, QUANTIFICATION, Lipids, Mice, Inbred C57BL, Cholesterol, Liver, Receptors, LDL, Medicine, Female, lipids (amino acids, peptides, and proteins), Multidrug Resistance-Associated Proteins, Proprotein Convertase 9, HIGH-DENSITY-LIPOPROTEIN, Gene Deletion

Abstract

Genetic studies link adenosine triphosphate-binding cassette transporter C6 (\(\it {ABCC6}\)) mutations to pseudoxanthoma elasticum (PXE). \(\it {ABCC6}\) sequence variations are correlated with altered HDL cholesterol levels and an elevated risk of coronary artery diseases. However, the role of ABCC6 in cholesterol homeostasis is not widely known. Here, we report reduced serum cholesterol and phytosterol levels in Abcc6-deficient mice, indicating an impaired sterol absorption. Ratios of cholesterol precursors to cholesterol were increased, confirmed by upregulation of hepatic 3-hydroxy-3-methylglutaryl coenzyme A reductase (\(\it {Hmgcr}\)) expression, suggesting activation of cholesterol biosynthesis in \(\it {Abcc6}^{−/−}\) mice. We found that cholesterol depletion was accompanied by a substantial decrease in HDL cholesterol mediated by lowered ApoA-I and ApoA-II protein levels and not by inhibited lecithin-cholesterol transferase activity. Additionally, higher proprotein convertase subtilisin/kexin type 9 (Pcsk9) serum levels in \(\it {Abcc6}^{−/−}\) mice and PXE patients and elevated ApoB level in knockout mice were observed, suggesting a potentially altered very low-density lipoprotein synthesis. Our results underline the role of Abcc6 in cholesterol homeostasis and indicate impaired cholesterol metabolism as an important pathomechanism involved in PXE manifestation.

Published

2021

40. Apoptosis in the Extraosseous Calcification Process

Author

Francesco Demetrio Lofaro, Federica Boraldi, and Daniela Quaglino

Subjects

0301 basic medicine, Programmed cell death, Pathology, medicine.medical_specialty, extracellular matrix, Review, Biology, Matrix (biology), medicine.disease_cause, Extracellular matrix, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, cartilage, lcsh:QH301-705.5, Vascular tissue, ectopic mineralization, vascular tissue, Cartilage, apoptosis, cell death, Calcinosis, General Medicine, Extraosseous Calcification, Mitochondria, Oxidative Stress, 030104 developmental biology, medicine.anatomical_structure, lcsh:Biology (General), 030220 oncology & carcinogenesis, Intracellular, Oxidative stress

Abstract

Extraosseous calcification is a pathologic mineralization process occurring in soft connective tissues (e.g., skin, vessels, tendons, and cartilage). It can take place on a genetic basis or as a consequence of acquired chronic diseases. In this last case, the etiology is multifactorial, including both extra- and intracellular mechanisms, such as the formation of membrane vesicles (e.g., matrix vesicles and apoptotic bodies), mitochondrial alterations, and oxidative stress. This review is an overview of extraosseous calcification mechanisms focusing on the relationships between apoptosis and mineralization in cartilage and vascular tissues, as these are the two tissues mostly affected by a number of age-related diseases having a progressively increased impact in Western Countries.

Published

2021

41. Coordinated orphan disease research: yes, we can!

Author

Olivier M. Vanakker

Subjects

Connective Tissue Diseases, Pseudoxanthoma Elasticum, ENPP1, ABCC6, Ectopic mineralization, Orphan disease, Genetics, QH426-470

Published

2013

42. Kidney Stones are Prevalent in Individuals with Pseudoxanthoma Elasticum, a Genetic Ectopic Mineralization Disorder

Author

Qiaoli Li, Jouni Uitto, Ian F. Terry, Douglas Ralph, Sharon F. Terry, and Rina Allawh

Subjects

Pathology, medicine.medical_specialty, business.industry, Dermatology, lcsh:RL1-803, Pseudoxanthoma elasticum, medicine.disease, Ectopic mineralization, Article, Infectious Diseases, medicine, lcsh:Dermatology, Kidney stones, business

Abstract

Objective:. Pseudoxanthoma elasticum (PXE) is a rare genetic disorder caused by loss-of-function mutations in the ABCC6 gene. While PXE is characterized by ectopic mineralization of connective tissues clinically affecting the skin, eyes, and cardiovascular system, kidney stones were reported in some individuals with PXE. The aim of this study is to determine whether kidney stones are an incidental finding or a frequent manifestation of PXE. Methods:. We first investigated the genetic basis of two siblings diagnosed with PXE. The younger patient presented with recurrent kidney stones since 8 years old. Secondly, to address whether kidney stones are associated with PXE, the prevalence of kidney stones in a survey cohort of 563 respondents with PXE was compared to that of a general U.S. population survey, National Health and Nutrition Examination Survey, with 28,629 participants. Results:. Genetic analysis in both patients identified compound heterozygous mutations in ABCC6, c.2787+1G>T, and c.3774_3775insC. The analysis of participants 20 years old and older revealed that 23.4% of PXE patients had previously had a kidney stone, a significant increase compared to 9.2% in the general population (P

Published

2020

43. Juxta-articular joint-capsule mineralization in CD73 deficient mice: Similarities to patients with NT5E mutations.

Author

Qiaoli Li, Price, Thea P., Sundberg, John P., and Uitto, Jouni

Published

2014

44. Phenotypic Characterization of the KK/HlJ Inbred Mouse Strain.

Author

Berndt, A., Sundberg, B. A., Silva, K. A., Kennedy, V. E., Richardson, M. A., Li, Q., Bronson, R. T., Uitto, J., and Sundberg, J. P.

Subjects

PHENOTYPES, PHYSIOLOGIC strain, TISSUE wounds, HYPERPLASIA, BIOMINERALIZATION

Abstract

Detailed histopathological diagnoses of inbred mouse strains are important for interpreting research results and defining novel models of human diseases. The aim of this study was to histologically detect lesions affecting the KK/HlJ inbred strain. Mice were examined at 6, 12, and 20 months of age and near natural death (ie, moribund mice). Histopathological lesions were quantified by percentage of affected mice per age group and sex. Predominant lesions were mineralization, hyperplasia, and fibro-osseous lesions. Mineralization was most frequently found in the connective tissue dermal sheath of vibrissae, the heart, and the lung. Mineralization was also found in many other organs but to a lesser degree. Hyperplasia was found most commonly in the pancreatic islets, and fibro-osseous lesions were observed in several bones. The percentage of lesions increased with age until 20 months. This study shows that KK/HlJ mice demonstrate systemic aberrant mineralization, with greatest frequency in aged mice. The detailed information about histopathological lesions in the inbred strain KK/HlJ can help investigators to choose the right model and correctly interpret the experimental results. [ABSTRACT FROM PUBLISHER]

Published

2014

45. Perturbation of specific pro-mineralizing signalling pathways in human and murine pseudoxanthoma elasticum.

Author

Hosen, Mohammad J., Coucke, Paul J., Le Saux, Olivier, De Paepe, Anne, and Vanakker, Olivier M.

Subjects

*PSEUDOXANTHOMA elasticum, *APOPTOSIS, *BONE morphogenetic proteins, *ENDOPLASMIC reticulum, *BIOMINERALIZATION, *CALCIFICATION, *FUNGI

Abstract

Background Pseudoxanthoma elasticum (PXE) is characterized by skin (papular lesions), ocular (subretinal neovascularisation) and cardiovascular manifestations (peripheral artery disease), due to mineralization and fragmentation of elastic fibres in the extracellular matrix (ECM). Caused by mutations in the ABCC6 gene, the mechanisms underlying this disease remain unknown. The knowledge on the molecular background of soft tissue mineralization largely comes from insights in vascular calcification, with involvement of the osteoinductive Transforming Growth Factor beta (TGFβ) family (TGFβ1-3 and Bone Morphogenetic Proteins [BMP]), together with ectonucleotides (ENPP1), Wnt signalling and a variety of local and systemic calcification inhibitors. In this study, we have investigated the relevance of the signalling pathways described in vascular soft tissue mineralization in the PXE knockout mouse model and in PXE patients. Methods The role of the pro-osteogenic pathways BMP2-SMADs-RUNX2, TGFβ-SMAD2/3 and Wnt-MSX2, apoptosis and ER stress was evaluated using immunohistochemistry, mRNA expression profiling and immune-co-staining in dermal tissues and fibroblast cultures of PXE patients and the eyes and whiskers of the PXE knock-out mouse. Apoptosis was further evaluated by TUNEL staining and siRNA mediated gene knockdown. ALPL activity in PXE fibroblasts was studied using ALPL stains. Results We demonstrate the upregulation of the BMP2-SMADs-RUNX2 and TGFβ-2-SMAD2/3 pathway, co-localizing with the mineralization sites, and the involvement of MSX2-canonical Wnt signalling. Further, we show that apoptosis is also involved in PXE with activation of Caspases and BCL-2. In contrast to vascular calcification, neither the other BMPs and TGFβs nor endoplasmic reticulum stress pathways seem to be perturbed in PXE. Conclusions Our study shows that we cannot simply extrapolate knowledge on cell signalling in vascular soft tissue calcification to a multisystem ectopic mineralisation disease as PXE. Contrary, we demonstrate a specific set of perturbed signalling pathways in PXE patients and the knockout mouse model. Based on our findings and previously reported data, we propose a preliminary cell model of ECM calcification in PXE. [ABSTRACT FROM AUTHOR]

Published

2014

46. Ectopic mineralization disorders of the extracellular matrix of connective tissue: Molecular genetics and pathomechanisms of aberrant calcification.

Author

Li, Qiaoli, Jiang, Qiujie, and Uitto, Jouni

Subjects

*ECTOPIC tissue, *BIOMINERALIZATION, *CONNECTIVE tissue cells, *EXTRACELLULAR matrix proteins, *CALCIUM phosphate, *MOLECULAR genetics, *CALCIFICATION

Abstract

Abstract: Ectopic mineralization of connective tissues is a complex process leading to deposition of calcium phosphate complexes in the extracellular matrix, particularly affecting the skin and the arterial blood vessels and common in age-associated disorders. A number of initiating and contributing metabolic and environmental factors are linked to aberrant mineralization in these diseases, making the identification of precise pathomechanistic pathways exceedingly difficult. However, there has been significant recent progress in understanding the ectopic mineralization processes through study of heritable single-gene disorders, which have allowed identification of discrete pathways and contributing factors leading to aberrant connective tissue mineralization. These studies have provided support for the concept of an intricate mineralization/anti-mineralization network present in peripheral connective tissues, providing a perspective to development of pharmacologic approaches to limit the phenotypic consequences of ectopic mineralization. This overview summarizes the current knowledge of ectopic heritable mineralization disorders, with accompanying animal models, focusing on pseudoxanthoma elasticum and generalized arterial calcification of infancy, two autosomal recessive diseases manifesting with extensive connective tissue mineralization in the skin and the cardiovascular system. [Copyright &y& Elsevier]

Published

2014

47. Molecular Genetics and Modifier Genes in Pseudoxanthoma Elasticum, a Heritable Multisystem Ectopic Mineralization Disorder

Author

Qiaoli Li, Masoomeh Faghankhani, Jouni Uitto, Hongbin Luo, and Yi Cao

Subjects

0301 basic medicine, medicine.medical_specialty, ABCC6, Dermatology, Biology, Quantitative trait locus, Biochemistry, Ectopic mineralization, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Molecular genetics, medicine, Animals, Humans, Pseudoxanthoma Elasticum, Pyrophosphatases, Vascular Calcification, Molecular Biology, Gene, Genetic Association Studies, Genetics, Genetic heterogeneity, Phosphoric Diester Hydrolases, Cell Biology, Pseudoxanthoma elasticum, medicine.disease, Phenotype, Diphosphates, Oxidative Stress, 030104 developmental biology, 030220 oncology & carcinogenesis, biology.protein, Multidrug Resistance-Associated Proteins

Abstract

In the past two decades, there has been great progress in identifying the molecular basis and pathomechanistic details in pseudoxanthoma elasticum (PXE), a heritable multisystem ectopic mineralization disorder. Although the identification of pathogenic variants in ABCC6 has been critical for understanding the disease process, genetic modifiers have been disclosed that explain the phenotypic heterogeneity of PXE. Adding to the genetic complexity of PXE are PXE-like phenotypes caused by pathogenic variants in other ectopic mineralization–associated genes. This review summarizes the current knowledge of the genetics and candidate modifier genes in PXE, a multifactorial disease at the genome-environment interface.

Published

2020

48. Zebrafish Models of Ectopic Mineralization—The Paradigm of Pseudoxanthoma Elasticum

Author

Qiaoli Li and Jouni Uitto

Subjects

0301 basic medicine, ABCC6, Model system, Dermatology, Computational biology, Biochemistry, Ectopic mineralization, 03 medical and health sciences, medicine, Animals, Humans, CRISPR, Pseudoxanthoma Elasticum, Molecular Biology, Zebrafish, biology, Cas9, Cell Biology, Zebrafish Proteins, biology.organism_classification, Pseudoxanthoma elasticum, medicine.disease, Phenotype, 030104 developmental biology, biology.protein, ATP-Binding Cassette Transporters

Abstract

Zebrafish represent a powerful model system with which to study human biology and pathology. Recently developed CRISPR/Cas9 technology enables genetic manipulation with precision. Using CRISPR/Cas9 methodology, van Gils et al. generated knockout zebrafish for abcc6a, the orthologue of human ABCC6 that is mutated in pseudoxanthoma elasticum. Although similarities exist between this and other abcc6a zebrafish models, none fully recapitulate phenotypes of human pseudoxanthoma elasticum.

Published

2018

49. Etidronate prevents, but does not reverse, ectopic mineralization in a mouse model of pseudoxanthoma elasticum (Abcc6−/−)

Author

Qiaoli Li, Jouni Uitto, Joshua Kingman, Michael A. Levine, and John P. Sundberg

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, medicine.medical_treatment, ABCC6, 030204 cardiovascular system & hematology, Ectopic mineralization, Generalized arterial calcification, 03 medical and health sciences, Subcutaneous injection, 0302 clinical medicine, Diabetes mellitus, Internal medicine, medicine, biology, business.industry, Bisphosphonate, medicine.disease, Pseudoxanthoma elasticum, 3. Good health, 030104 developmental biology, Ectopic tissue, Endocrinology, Oncology, biology.protein, business

Abstract

// Qiaoli Li 1 , Joshua Kingman 1 , John P. Sundberg 2 , Michael A. Levine 3 , Jouni Uitto 1 1 Department of Dermatology and Cutaneous Biology, The Sidney Kimmel Medical College at Thomas Jefferson University, Philadelphia, PA, USA 2 The Jackson Laboratory, Bar Harbor, ME, USA 3 Division of Endocrinology and Diabetes, Children’s Hospital of Philadelphia and University of Pennsylvania Perelman School of Medicine, Philadelphia, PA, USA Correspondence to: Qiaoli Li, email: Qiaoli.Li@jefferson.edu Keywords: pseudoxanthoma elasticum, ectopic mineralization, etidronate treatment, bisphosphonates, mouse model Received: March 03, 2016 Accepted: June 09, 2016 Published: July 20, 2016 ABSTRACT Pseudoxanthoma elasticum (PXE) and generalized arterial calcification of infancy (GACI) are heritable disorders manifesting with ectopic tissue mineralization. Most cases of PXE and some cases of GACI are caused by mutations in the ABCC6 gene, resulting in reduced plasma pyrophosphate (PPi) levels. There is no effective treatment for these disorders. It has been suggested that administration of bisphosphonates, stable and non-hydrolyzable PPi analogs, could counteract ectopic mineralization in these disorders. In this study we tested the potential efficacy of etidronate, a first generation bisphosphonate, on ectopic mineralization in the muzzle skin of Abcc6 -/- mice, a model of PXE. The Abcc6 -/- mice received subcutaneous injections of etidronate, 0.283 and 3.40 mg/kg per injection (0.01× and 0.12×), twice a week, in both prevention and reversal studies. Ectopic mineralization in the dermal sheath of vibrissae in muzzle skin was determined by histopathologic analysis and by direct chemical assay for calcium content. Subcutaneous injection of etidronate prevented ectopic mineralization but did not reverse existing mineralization. The effect of etidronate was accompanied by alterations in the trabecular bone microarchitecture, determined by micro-computed tomography. The results suggest that etidronate may offer a potential treatment modality for PXE and GACI caused by ABCC6 mutations. Etidronate therapy should be initiated in PXE patients as soon as the diagnosis is made, with careful monitoring of potential side effects.

Published

2018

50. Atorvastatin counteracts aberrant soft tissue mineralization in a mouse model of pseudoxanthoma elasticum ( Abcc6 ).

Author

Guo, Haitao, Li, Qiaoli, Chou, David, and Uitto, Jouni

Subjects

*PSEUDOXANTHOMA elasticum, *ATORVASTATIN, *LABORATORY mice, *BIOMINERALIZATION, *SOFT tissue injuries, *ECTOPIC tissue

Abstract

Pseudoxanthoma elasticum (PXE), a multisystem heritable disorder with aberrant mineralization of arterial blood vessels, is caused by mutations in the ABCC6 gene. Previous studies have suggested that carriers of the ABCC6 mutations, particularly of p.R1141X, are at increased risk for coronary artery disease. In this study, we used Abcc6 knock-out mice to determine the serum lipid profiles and examine the effects of atorvastatin on the aberrant mineralization in this model of PXE. First, serum lipid profiles at 12 weeks of age, after overnight fasting, revealed a statistically significant increase in total cholesterol and triglyceride levels in Abcc6 mice compared to their wild-type littermates. Placing these mice at 4 weeks of age for 20 weeks on atorvastatin, either 0.01 % or 0.04 % of the diet (low statin and high statin groups, respectively), reduced the total triglyceride and cholesterol levels, which was accompanied with significantly reduced mineralization of the dermal sheath of vibrissae, a biomarker of the aberrant mineralization process in these mice. However, if the mice were placed on atorvastatin for 12 weeks at 12 weeks of age, at which time point significant mineralization had already taken place, no difference in the amount of mineralization was noted. These observations suggest that statins, particularly atorvastatin, can prevent, but not reverse, aberrant mineralization in this mouse model of PXE. For a clinical perspective, a survey of 1,747 patients with PXE was conducted regarding their present or past use of statins. The results indicated that about one third of all PXE patients are currently or have previously been on cholesterol-lowering drugs. Thus, a sizable number of patients with PXE could be subject to modulation of their mineralization processes by concomitant statin treatment. Key message: [ABSTRACT FROM AUTHOR]

Published

2013