Your search keyword '"ENPP1"' showing total 374 results

1. Regulation of TGF-β1-induced fibroblast differentiation of human periodontal ligament stem cells through the mutually antagonistic action of ectonucleotide pyrophosphatase/phosphodiesterase 1 and 2.

Author

Onyou Ju, Seon-Yle Ko, and Young-Joo Jang

Subjects

TISSUE differentiation, PERIODONTAL ligament, EXTRACELLULAR matrix, STEM cells, CELL physiology

Abstract

Human periodontal ligament stem cells (hPDLSCs) differentiate into periodontal ligament (PDL) fibroblasts, osteoblasts, and cementoblasts. To identify inducers of PDL fibroblastic differentiation, monoclonal antibody series were developed a series of against membrane/extracellular matrix (ECM) molecules through decoy immunization. The anti-PDL13 antibody targets ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1), renowned for regulating skeletal and soft tissue mineralization. ENPP1 accumulates in the periodontal ligament region of tooth roots, and specifically localizes to the cell boundaries and elongated processes of the fibroblastic cells. As ENPP1 expression increases during fibroblastic differentiation, mineralization induced by tissue-nonspecific alkaline phosphatase (TNAP), a pyrophosphate-degrading enzyme, is completely inhibited. This is consistent with ENPP1 and TNAP acting in opposition, and TGF-ß1-induced ENPP1 expression creates an essential environment for PDL fibroblast differentiation. Representative fibroblastic differentiation markers decrease with endogenous ENPP1 inhibition by siRNA and antibody blocking. ENPP2 generates lipid signaling molecules. In contrast to ENPP1, ENPP2 disappears in TGF-ß1-induced PDL fibroblasts. Ectopic expression of ENPP2 hinders TGF-ß1-induced PDL fibroblastic differentiation. Suppression of ENPP1 and ENPP2 leads to severe defects in undifferentiated and differentiated cells, demonstrating that these two factors play opposing roles in soft and hard tissue differentiation but can complement each other for cell survival. In conclusion, increased ENPP1 is crucial for TGF-ß1-induced PDL differentiation, while ENPP2 and TNAP can inhibit ENPP1. ENPP1 and ENPP2 exhibit complementary functions in the cell survival. [ABSTRACT FROM AUTHOR]

Published

2024

2. Epitranscriptomic regulation of lipid oxidation and liver fibrosis via ENPP1 mRNA m6A modification.

Author

Sun, Feng, Wang, Juan, Yang, Yang, Dong, Qi-Qi, Jia, Lin, Hu, Wei, Tao, Hui, Lu, Chao, and Yang, Jing-Jing

Subjects

*HEPATIC fibrosis, *GENE expression, *LIVER cells, *NEPHROBLASTOMA, *GENETIC translation

Abstract

Background: Dysregulated lipid oxidation occurs in several pathological processes characterized by cell proliferation and migration. Nonetheless, the molecular mechanism of lipid oxidation is not well appreciated in liver fibrosis, which is accompanied by enhanced fibroblast proliferation and migration. Methods: We investigated the causes and consequences of lipid oxidation in liver fibrosis using cultured cells, animal models, and clinical samples. Results: Increased ecto-nucleotide pyrophosphatase/phosphodiesterase (ENPP1) expression caused increased lipid oxidation, resulting in the proliferation and migration of hepatic stellate cells (HSCs) that lead to liver fibrosis, whereas fibroblast-specific ENPP1 knockout reversing these results. Elevated ENPP1 and N6-methyladenosine (m6A) levels were associated with high expression of Wilms tumor 1 associated protein (WTAP). Mechanistically, WTAP-mediated m6A methylation of the 3'UTR of ENPP1 mRNA and induces its translation dependent of YTH domain family proteins 1 (YTHDF1). Additionally, ENPP1 could interact with hypoxia inducible lipid droplet associated (HILPDA) directly; overexpression of ENPP1 further recruits HILPDA-mediated lipid oxidation, thereby promotes HSCs proliferation and migration, while inhibition of ENPP1 expression produced the opposite effect. Clinically, increased expression of WTAP, YTHDF1, ENPP1, and HILPDA, and increased m6A mRNA content, enhanced lipid oxidation, and increased collagen deposition in human liver fibrosis tissues. Conclusions: We describe a novel mechanism in which WTAP catalyzes m6A methylation of ENPP1 in a YTHDF1-dependent manner to enhance lipid oxidation, promoting HSCs proliferation and migration and liver fibrosis. [ABSTRACT FROM AUTHOR]

Published

2024

3. ENPP1 is an innate immune checkpoint of the anticancer cGAMP-STING pathway in breast cancer.

Author

Wang, Songnan, Böhnert, Volker, Joseph, Alby, Sudaryo, Valentino, Skariah, Gemini, Swinderman, Jason, Yu, Feiqiao, Subramanyam, Vishvak, Lyu, Xuchao, Gilbert, Luke, Vant Veer, Laura, Li, Lingyin, Goodarzi, Hani, and Wolf, Denise

Subjects

ENPP1, STING, breast cancer metastasis, extracellular cGAMP, immune checkpoint, Female, Humans, Breast Neoplasms, Immunity, Innate, Membrane Proteins, Phosphoric Diester Hydrolases, Pyrophosphatases

Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) expression correlates with poor prognosis in many cancers, and we previously discovered that ENPP1 is the dominant hydrolase of extracellular cGAMP: a cancer-cell-produced immunotransmitter that activates the anticancer stimulator of interferon genes (STING) pathway. However, ENPP1 has other catalytic activities and the molecular and cellular mechanisms contributing to its tumorigenic effects remain unclear. Here, using single-cell RNA-seq, we show that ENPP1 in both cancer and normal tissues drives primary breast tumor growth and metastasis by dampening extracellular 23-cyclic-GMP-AMP (cGAMP)-STING-mediated antitumoral immunity. ENPP1 loss-of-function in both cancer cells and normal tissues slowed primary tumor growth and abolished metastasis. Selectively abolishing the cGAMP hydrolysis activity of ENPP1 phenocopied ENPP1 knockout in a STING-dependent manner, demonstrating that restoration of paracrine cGAMP-STING signaling is the dominant anti-cancer mechanism of ENPP1 inhibition. Finally, ENPP1 expression in breast tumors deterministically predicated whether patients would remain free of distant metastasis after pembrolizumab (anti-PD-1) treatment followed by surgery. Altogether, ENPP1 blockade represents a strategy to exploit cancer-produced extracellular cGAMP for controlled local activation of STING and is therefore a promising therapeutic approach against breast cancer.

Published

2023

4. Homozygous splice-site variant in ENPP1 underlies generalized arterial calcification of infancy

Author

Hafiza Noor Ul Ayan, Yvonne Nitschke, Abdul Razzaq Mughal, Holger Thiele, Naveed Altaf Malik, Ijaz Hussain, Syed Muhammad Ijlal Haider, Frank Rutsch, Jeanette Erdmann, Muhammad Tariq, Zouhair Aherrahrou, and Ilyas Ahmad

Subjects

GACI, ENPP1, Splice site variant, Pediatrics, RJ1-570

Abstract

Abstract ENPP1 (ectonucleotide pyrophosphatase/phosphodiesterase 1) plays a critical role by converting extracellular ATP to AMP, generating extracellular PPi, a potential inhibitor of calcification. Pathogenic variants in the ENPP1 cause generalized arterial calcification of infancy (GACI [OMIM 208000]). GACI, is an ultra-rare disease characterized by early-onset calcification of large and medium-sized arteries, leading to severe cardiovascular complications such as heart failure, pulmonary stenosis (PS), hypertension, and more. In this study, we report a novel homozygous splice-site pathogenic variant in ENPP1 (NM_006208, c.2230 + 5G > A; p.Asp701Asnfs*2) residing in C-terminal nuclease-like domain (NLD) of ENPP1 protein in a Pakistani family diagnosed with severe valvular PS and mild right ventricular hypertrophy (RVH). cDNA assays confirmed the skipping of exon 21, and the splice product underwent nonsense-mediated decay. Functional studies on fibroblasts from the patient demonstrated increased calcification and decreased enzymatic activity of ENPP1, recapitulating the hallmarks of GACI. By combining genetic analysis with the in vitro study, we substantiate that ENPP1:c.2230 + 5G > A variant is pathogenic, underscoring its role in the development of GACI.

Published

2024

5. T Cell‐Derived Apoptotic Extracellular Vesicles Hydrolyze cGAMP to Alleviate Radiation Enteritis via Surface Enzyme ENPP1.

Author

Zhou, Yang, Bao, Lili, Gong, Shengkai, Dou, Geng, Li, Zihan, Wang, Zhengyan, Yu, Lu, Ding, Feng, Liu, Huan, Li, Xiayun, Liu, Siying, Yang, Xiaoshan, and Liu, Shiyu

Subjects

*EXTRACELLULAR vesicles, *ENTERITIS, *RADIATION, *RADIOTHERAPY complications, *T cells, *HOMEOSTASIS

Abstract

Radiation enteritis is the most common complication of pelvic radiotherapy, but there is no effective prevention or treatment drug. Apoptotic T cells and their products play an important role in regulating inflammation and maintaining physiological immune homeostasis. Here it is shown that systemically infused T cell‐derived apoptotic extracellular vesicles (ApoEVs) can target mice irradiated intestines and alleviate radiation enteritis. Mechanistically, radiation elevates the synthesis of intestinal 2′3′ cyclic GMP‐AMP (cGAMP) and activates cyclic GMP‐AMP synthase (cGAS)‐stimulator of interferon genes (STING) proinflammatory pathway. After systemic infusion of ApoEVs, the ectonucleotide pyrophosphatase phosphodiesterase 1 (ENPP1) enriches on the surface of ApoEVs hydrolyze extracellular cGAMP, resulting in inhibition of the cGAS‐STING pathway activated by irradiation. Furthermore, after ApoEVs are phagocytosed by phagocytes, ENPP1 on ApoEVs hydrolyzed intracellular cGAMP, which serves as an intracellular cGAMP hydrolyzation mode, thereby alleviating radiation enteritis. The findings shed light on the intracellular and extracellular hydrolysis capacity of ApoEVs and their role in inflammation regulation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Activation of Nuclear Factor Erythroid 2-Related Factor 2 Transcriptionally Upregulates Ectonucleotide Pyrophosphatase/Phosphodiesterase 1 Expression and Inhibits Ectopic Calcification in Mice.

Author

Ida, Tomomi, Kanzaki, Hiroyuki, Shimoyama, Miho, Tohyama, Syunnosuke, Ishikawa, Misao, Katsumata, Yuta, Arai, Chihiro, Wada, Satoshi, Manase, Shugo, and Tomonari, Hiroshi

Subjects

NUCLEAR factor E2 related factor, GENE expression, PROMOTERS (Genetics), CALCIFICATION, OXIDATIVE stress, CELL culture

Abstract

Calcification plays a key role in biological processes, and breakdown of the regulatory mechanism results in a pathological state such as ectopic calcification. We hypothesized that ENPP1, the enzyme that produces the calcification inhibitor pyrophosphate, is transcriptionally regulated by Nrf2, and that Nrf2 activation augments ENPP1 expression to inhibit ectopic calcification. Cell culture experiments were performed using mouse osteoblastic cell line MC3T3-E1. Nrf2 was activated by 5-aminolevulinic acid and sodium ferrous citrate. Nrf2 overexpression was induced by the transient transfection of an Nrf2 expression plasmid. ENPP1 expression was monitored by real-time RT-PCR. Because the promoter region of ENPP1 contains several Nrf2-binding sites, chromatin immunoprecipitation using an anti-Nrf2 antibody followed by real-time PCR (ChIP-qPCR) was performed. The relationship between Nrf2 activation and osteoblastic differentiation was examined by alkaline phosphatase (ALP) and Alizarin red staining. We used mice with a hypomorphic mutation in ENPP1 (ttw mice) to analyze whether Nrf2 activation inhibits ectopic calcification. Nrf2 and Nrf2 overexpression augmented ENPP1 expression and inhibited osteoblastic differentiation, as indicated by ALP expression and calcium deposits. ChIP-qPCR showed that some putative Nrf2-binding sites in the ENPP1 promoter region were bound by Nrf2. Nrf2 activation inhibited ectopic calcification in mice. ENPP1 gene expression was transcriptionally regulated by Nrf2, and Nrf2 activation augmented ENPP1 expression, leading to the attenuation of osteoblastic differentiation and ectopic calcification in vitro and in vivo. Nrf2 activation has a therapeutic potential for preventing ectopic calcification. [ABSTRACT FROM AUTHOR]

Published

2024

7. TET3 boosts hepatocyte autophagy and impairs non-alcoholic fatty liver disease by increasing ENPP1 promoter hypomethylation.

Author

Sun, Feng, Yang, Yang, Jia, Lin, Dong, Qi-Qi, Hu, Wei, Tao, Hui, Lu, Chao, and Yang, Jing-Jing

Subjects

*NON-alcoholic fatty liver disease, *HEPATIC fibrosis, *METABOLIC reprogramming, *AUTOPHAGY

Abstract

Dysregulated ecto-nucleotide pyrophosphatase/phosphodiesterase (ENPP) family occurs in metabolic reprogramming pathological processes. Nonetheless, the epigenetic mechanisms by which ENPP family impacts NAFLD, also known as metabolic dysfunction-associated steatotic liver disease (MASLD), is poorly appreciated. We investigated the causes and consequences of ENPP1 promoter hypomethylation may boost NAFLD using NAFLD clinical samples, as well as revealed the underlying mechanisms using high-fat diet (HFD) + carbon tetrachloride (CCl 4) induced mouse model of NAFLD and FFA treatment of cultured hepatocyte. Herein, we report that the expression level of ENPP1 are increased in patients with NAFLD liver tissue and in mouse model of NAFLD. Hypomethylation of ENPP1, is associated with the perpetuation of hepatocyte autophagy and liver fibrosis in the NAFLD. ENPP1 hypomethylation is mediated by the DNA demethylase TET3 in NAFLD liver fibrosis and hepatocyte autophagy. Additionally, knockdown of TET3 methylated ENPP1 promoter, reduced the ENPP1 expression, ameliorated the experimental NAFLD. Mechanistically, TET3 epigenetically promoted ENPP1 expression via hypomethylation of the promoter. Knocking down TET3 can inhibit the hepatocyte autophagy but an overexpression of ENPP1 showing rescue effect. We describe a novel epigenetic mechanism wherein TET3 promoted ENPP1 expression through promoter hypomethylation is a critical mediator of NAFLD. Our findings provide new insight into the development of preventative measures for NAFLD. [Display omitted] • TET3 Boosts Hepatocyte Autophagy and Impairs Non-Alcoholic Fatty Liver Disease. • Increasing ENPP1 Promoter Hypomethylation in NAFLD and Hepatocyte Autophagy. • TET3 promoted ENPP1 promoter hypomethylation is a critical mediator of NAFLD. [ABSTRACT FROM AUTHOR]

Published

2024

8. T Cell‐Derived Apoptotic Extracellular Vesicles Hydrolyze cGAMP to Alleviate Radiation Enteritis via Surface Enzyme ENPP1

Author

Yang Zhou, Lili Bao, Shengkai Gong, Geng Dou, Zihan Li, Zhengyan Wang, Lu Yu, Feng Ding, Huan Liu, Xiayun Li, Siying Liu, Xiaoshan Yang, and Shiyu Liu

Subjects

apoptotic extracellular vesicles, cGAMP, cGAS‐STING pathway, ENPP1, radiation enteritis, Science

Abstract

Abstract Radiation enteritis is the most common complication of pelvic radiotherapy, but there is no effective prevention or treatment drug. Apoptotic T cells and their products play an important role in regulating inflammation and maintaining physiological immune homeostasis. Here it is shown that systemically infused T cell‐derived apoptotic extracellular vesicles (ApoEVs) can target mice irradiated intestines and alleviate radiation enteritis. Mechanistically, radiation elevates the synthesis of intestinal 2′3′ cyclic GMP‐AMP (cGAMP) and activates cyclic GMP‐AMP synthase (cGAS)‐stimulator of interferon genes (STING) proinflammatory pathway. After systemic infusion of ApoEVs, the ectonucleotide pyrophosphatase phosphodiesterase 1 (ENPP1) enriches on the surface of ApoEVs hydrolyze extracellular cGAMP, resulting in inhibition of the cGAS‐STING pathway activated by irradiation. Furthermore, after ApoEVs are phagocytosed by phagocytes, ENPP1 on ApoEVs hydrolyzed intracellular cGAMP, which serves as an intracellular cGAMP hydrolyzation mode, thereby alleviating radiation enteritis. The findings shed light on the intracellular and extracellular hydrolysis capacity of ApoEVs and their role in inflammation regulation.

Published

2024

9. ENPP1 ameliorates vascular calcification via inhibiting the osteogenic transformation of VSMCs and generating PPi

Author

Wu Xiujuan, Shen Shuijuan, Wu Jiaying, Wu Shaorui, Wang Shimi, and Di Feng

Subjects

vsmc, enpp1, calcification, aav9, vascular, transformation, Medicine

Abstract

This study aims to investigate the impact of ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) on vascular calcification in rats. The rationale behind studying ENPP1’s role in vascular calcification lies in its potential to modulate calcification processes. Understanding this relationship can offer insights into novel therapeutic avenues for addressing vascular calcification-related disorders. In this experiment, vascular smooth muscle cell (VSMC) calcification was induced using β-glycerophosphoric acid. Subsequently, recombinant AAV9-carrying ENPP1 was introduced into VSMCs to achieve both in vitro and in vivo overexpression of ENPP1. The findings indicate that ENPP1 overexpression significantly reduces calcium and phosphorus content in the aorta (P < 0.05). Alizarin red and von Kossa staining reveal notable reductions in calcium salt deposits in VSMCs and aorta, respectively. Notably, the expression levels of BMP-2, PINP, OC, and BALP were substantially decreased in VSMCs (P < 0.05), underscoring ENPP1’s role in impeding osteoblast-like transdifferentiation of VSMCs. Additionally, ENPP1 overexpression led to a significant increase in pyrophosphate (PPi) levels compared to control rats (P < 0.05). In conclusion, this study suggests that ENPP1 contributes to alleviating vascular calcification by elevating PPi levels and inhibiting the phenotypic transformation of VSMCs. These findings shed light on the potential therapeutic role of ENPP1 in mitigating vascular calcification-related complications.

Published

2023

10. Enpp1 mutations promote upregulation of hedgehog signaling in heterotopic ossification with aging

Author

He, Zhongyuan, Zhu, Zhengya, Tang, Tao, Wang, Fuan, Guo, Peng, Li, Jianfeng, Tung, Nguyen Tran Canh, Liang, Qian, Liu, Shaoyu, Gao, ManMan, Liu, Xizhe, and Zhou, Zhiyu

Published

2024

11. The use of burosumab to treat autosomal-recessive hypophosphatemic rickets type 2: rationale and a first clinical experience

Author

Parolin, Mattia, Partigiani, Nicola Bertazza, Benetti, Elisa, Longo, Germana, and Vidal, Enrico

Published

2024

12. ENPP1 is an innate immune checkpoint of the anticancer cGAMP-STING pathway in breast cancer.

Author

Songnan Wang, Böhnert, Volker, Joseph, Alby J., Sudaryo, Valentino, Skariah, Gemini, Swinderman, Jason T., Feiqiao B. Yu, Subramanyam, Vishvak, Wolf, Denise M., Xuchao Lyu, Gilbert, Luke A., van't Veer, Laura J., Goodarzi, Hani, and Lingyin Li

Subjects

*IMMUNE checkpoint proteins, *BREAST cancer, *THERAPEUTICS, *METASTATIC breast cancer, *TUMOR growth, *NATURAL products

Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) expression correlates with poor prognosis in many cancers, and we previously discovered that ENPP1 is the dominant hydrolase of extracellular cGAMP: a cancer-cell-produced immunotransmitter that activates the anticancer stimulator of interferon genes (STING) pathway. However, ENPP1 has other catalytic activities and the molecular and cellular mechanisms contributing to its tumorigenic effects remain unclear. Here, using single-cell RNA-seq, we show that ENPP1 in both cancer and normal tissues drives primary breast tumor growth and metastasis by dampening extracellular 2'3'-cyclic-GMP-AMP (cGAMP)-STING-mediated antitumoral immunity. ENPP1 loss-of-function in both cancer cells and normal tissues slowed primary tumor growth and abolished metastasis. Selectively abolishing the cGAMP hydrolysis activity of ENPP1 phenocopied ENPP1 knockout in a STING-dependent manner, demonstrating that restoration of paracrine cGAMP-STING signaling is the dominant anti-cancer mechanism of ENPP1 inhibition. Finally, ENPP1 expression in breast tumors deterministically predicated whether patients would remain free of distant metastasis after pembrolizumab (anti-PD-1) treatment followed by surgery. Altogether, ENPP1 blockade represents a strategy to exploit cancer-produced extracellular cGAMP for controlled local activation of STING and is therefore a promising therapeutic approach against breast cancer. [ABSTRACT FROM AUTHOR]

Published

2023

13. Studies on the Inhibition of Ectonucleotide Pyrophosphatase/Phosphodiesterase 1 (ENPP1) by 2-(3,4-Dihydroxyphenyl)-7,8-dihydroxy-3-methoxychromen-4-one, a Flavonoid from Pistacia chinensis.

Author

Rauf, Abdur, Akram, Zuneera, Naveed, Muhammad, AlMasoud, Najla, Alomar, Taghrid S., Saleem, Muhammad, Waheed, Abdul, and Ribaudo, Giovanni

Subjects

*SNAKE venom, *FLAVONOIDS, *PISTACIA, *CYCLIC nucleotides, *INORGANIC pyrophosphatase, *INTERFERON receptors

Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) regulates skeletal and soft tissue mineralization by hydrolyzing nucleotide triphosphates and cyclic nucleotides, and is involved in the modulation of immune system. In fact, ENPP1 degrades 2′,3′-cyclic GMP-AMP dinucleotide (2′,3′-cGAMP), which is an agonist of surface receptor stimulator of interferon genes (STING), thus downregulating immune response. Consequently, ENPP1 inhibitors are being studied as adjuvant agents in infections and cancer. Pistacia chinensis is a medicinal plant endowed with several biological activities and traditional uses. In the current study, we report the isolation of transilitin (2-(3,4-dihydroxyphenyl)-7,8-dihydroxy-3-methoxychromen-4-one) from the methanolic extract of P. chinensis barks and the investigation of its activity as ENPP1 inhibitor. The compound was tested in vitro against snake venom phosphodiesterase, which is structurally related to ENPP1, and dose-dependently inhibited the enzyme. Moreover, molecular modeling studies were employed to assess the binding motif of the transilitin with the macromolecular target. Our findings support the traditional medical application of P. chinensis and its extracts by shedding new light on the mechanisms underlying their biological action. [ABSTRACT FROM AUTHOR]

Published

2023

14. Studies on the Inhibition of Ectonucleotide Pyrophosphatase/Phosphodiesterase 1 (ENPP1) by 2-(3,4-Dihydroxyphenyl)-7,8-dihydroxy-3-methoxychromen-4-one, a Flavonoid from Pistacia chinensis

Author

Abdur Rauf, Zuneera Akram, Muhammad Naveed, Najla AlMasoud, Taghrid S. Alomar, Muhammad Saleem, Abdul Waheed, and Giovanni Ribaudo

Subjects

ENPP1, phosphodiesterase, Pistacia chinensis, transilitin, flavonoids, docking, Chemistry, QD1-999

Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) regulates skeletal and soft tissue mineralization by hydrolyzing nucleotide triphosphates and cyclic nucleotides, and is involved in the modulation of immune system. In fact, ENPP1 degrades 2′,3′-cyclic GMP-AMP dinucleotide (2′,3′-cGAMP), which is an agonist of surface receptor stimulator of interferon genes (STING), thus downregulating immune response. Consequently, ENPP1 inhibitors are being studied as adjuvant agents in infections and cancer. Pistacia chinensis is a medicinal plant endowed with several biological activities and traditional uses. In the current study, we report the isolation of transilitin (2-(3,4-dihydroxyphenyl)-7,8-dihydroxy-3-methoxychromen-4-one) from the methanolic extract of P. chinensis barks and the investigation of its activity as ENPP1 inhibitor. The compound was tested in vitro against snake venom phosphodiesterase, which is structurally related to ENPP1, and dose-dependently inhibited the enzyme. Moreover, molecular modeling studies were employed to assess the binding motif of the transilitin with the macromolecular target. Our findings support the traditional medical application of P. chinensis and its extracts by shedding new light on the mechanisms underlying their biological action.

Published

2023

15. Enpp1 deficiency caused chondrocyte apoptosis by inhibiting AMPK signaling pathway

Author

Zhiqiang Gao, Qiang Wang, Kai Guo, Xinhua Li, and Yufeng Huang

Subjects

Enpp1, Osteoarthritis, Apoptosis, AMPK, AICAR, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Objective and background The deficiency of ectonucleotide pyrophosphatase/phosphodiesterase 1 (Enpp1) causes the phenotype similar to knee osteoarthritis (OA). However, the molecular mechanism is poorly understood. Method The global deletion of Enpp1 (Enpp1−/−) mice was created to analyze the role of Enpp1 in the progress of knee OA. The apoptosis, proliferation and chondrogenic differentiation ability of chondrocytes from wild-type (WT) and Enpp1−/− joints were compared. According to the results of high-throughput quantitative molecular measurements, the proteins of chondrocytes from WT and Enpp1−/− mice were used to explore the mechanism of Enpp1 deficiency-associated knee OA. Result In Enpp1−/− knee joints, we found significant chondrocyte apoptosis and proteomic results showed that abnormal expression of AMP-activated protein kinase (AMPK) signaling pathway may contribute to this phenotype. In primary chondrocyte cultures in vitro, Enpp1 deletion dramatically enhancing chondrocyte apoptosis. Meanwhile, we found Enpp1 deletion inhibits the phosphorylation of AMPK (P-AMPK). We also found that decreased level of P-AMPK and chondrocyte apoptosis, which are caused by Enpp1 deficiency, can be reversed by Acadesine (AICAR), the activator of AMPK. Conclusion Consequently, Enpp1 deficiency plays an essential role in knee OA by regulating AMPK signaling pathway.

Published

2023

16. Homozygous splice-site variant in ENPP1 underlies generalized arterial calcification of infancy

Author

Noor Ul Ayan, Hafiza, Nitschke, Yvonne, Mughal, Abdul Razzaq, Thiele, Holger, Malik, Naveed Altaf, Hussain, Ijaz, Haider, Syed Muhammad Ijlal, Rutsch, Frank, Erdmann, Jeanette, Tariq, Muhammad, Aherrahrou, Zouhair, and Ahmad, Ilyas

Published

2024

17. Epitranscriptomic regulation of lipid oxidation and liver fibrosis via ENPP1 mRNA m6A modification

Author

Sun, Feng, Wang, Juan, Yang, Yang, Dong, Qi-Qi, Jia, Lin, Hu, Wei, Tao, Hui, Lu, Chao, and Yang, Jing-Jing

Published

2024

18. Genetics of Diffuse Idiopathic Skeletal Hyperostosis and Ossification of the Spinal Ligaments.

Author

Kato, Hajime, Braddock, Demetrios T., and Ito, Nobuaki

Abstract

Purpose of Review: The study aims to provide updated information on the genetic factors associated with the diagnoses 'Diffuse Idiopathic Skeletal Hyperostosis' (DISH), 'Ossification of the Posterior Longitudinal Ligament' (OPLL), and in patients with spinal ligament ossification. Recent Findings: Recent studies have advanced our knowledge of genetic factors associated with DISH, OPLL, and other spinal ossification (ossification of the anterior longitudinal ligament [OALL] and the yellow ligament [OYL]). Several case studies of individuals afflicted with monogenic disorders, such as X-linked hypophosphatemia (XLH), demonstrate the strong association of fibroblast growth factor 23-related hypophosphatemia with OPLL, suggesting that pathogenic variants in PHEX, ENPP1, and DMP1 are associated with FGF23-phosphate wasting phenotype and strong genetic factors placing patients at risk for OPLL. Moreover, emerging evidence demonstrates that heterozygous and compound heterozygous ENPP1 pathogenic variants inducing 'Autosomal Recessive Hypophosphatemic Rickets Type 2' (ARHR2) also place patients at risk for DISH and OPLL, possibly due to the loss of inhibitory plasma pyrophosphate (PPi) which suppresses ectopic calcification and enthesis mineralization. Summary: Our findings emphasize the importance of genetic and plasma biomarker screening in the clinical evaluation of DISH and OPLL patients, with plasma PPi constituting an important new biomarker for the identification of DISH and OPLL patients whose disease course may be responsive to ENPP1 enzyme therapy, now in clinical trials for rare calcification disorders. [ABSTRACT FROM AUTHOR]

Published

2023

19. Second messenger 2'3'-cyclic GMP-AMP (2'3'-cGAMP): the cell autonomous and non-autonomous roles in cancer progression

Author

Ma, Xiao-yu, Chen, Man-man, and Meng, Ling-hua

Published

2024

20. Enpp1 deficiency caused chondrocyte apoptosis by inhibiting AMPK signaling pathway.

Author

Gao, Zhiqiang, Wang, Qiang, Guo, Kai, Li, Xinhua, and Huang, Yufeng

Subjects

*CARTILAGE cells, *KNEE osteoarthritis, *IN vitro studies, *ANIMAL experimentation, *AMP-activated protein kinases, *APOPTOSIS, *CELLULAR signal transduction, *OSTEOARTHRITIS, *RESEARCH funding, *ESTERASES, *PHENOTYPES, *PHOSPHORYLATION

Abstract

Objective and background: The deficiency of ectonucleotide pyrophosphatase/phosphodiesterase 1 (Enpp1) causes the phenotype similar to knee osteoarthritis (OA). However, the molecular mechanism is poorly understood. Method: The global deletion of Enpp1 (Enpp1−/−) mice was created to analyze the role of Enpp1 in the progress of knee OA. The apoptosis, proliferation and chondrogenic differentiation ability of chondrocytes from wild-type (WT) and Enpp1−/− joints were compared. According to the results of high-throughput quantitative molecular measurements, the proteins of chondrocytes from WT and Enpp1−/− mice were used to explore the mechanism of Enpp1 deficiency-associated knee OA. Result: In Enpp1−/− knee joints, we found significant chondrocyte apoptosis and proteomic results showed that abnormal expression of AMP-activated protein kinase (AMPK) signaling pathway may contribute to this phenotype. In primary chondrocyte cultures in vitro, Enpp1 deletion dramatically enhancing chondrocyte apoptosis. Meanwhile, we found Enpp1 deletion inhibits the phosphorylation of AMPK (P-AMPK). We also found that decreased level of P-AMPK and chondrocyte apoptosis, which are caused by Enpp1 deficiency, can be reversed by Acadesine (AICAR), the activator of AMPK. Conclusion: Consequently, Enpp1 deficiency plays an essential role in knee OA by regulating AMPK signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2023

21. Immunolocalization of Enzymes/Membrane Transporters Related to Bone Mineralization in the Metaphyses of the Long Bones of Parathyroid-Hormone-Administered Mice.

Author

Mae, Takahito, Hasegawa, Tomoka, Hongo, Hiromi, Yamamoto, Tomomaya, Zhao, Shen, Li, Minqi, Yamazaki, Yutaka, and Amizuka, Norio

Subjects

MEMBRANE transport proteins, MINERALIZATION, CATHEPSIN B, ENZYMES, ATP-binding cassette transporters, GENE expression

Abstract

The present study aimed to demonstrate the immunolocalization and/or gene expressions of the enzymes and membrane transporters involved in bone mineralization after the intermittent administration of parathyroid hormone (PTH). The study especially focused on TNALP, ENPP1, and PHOSPHO1, which are involved in matrix vesicle-mediated mineralization, as well as PHEX and the SIBLING family, which regulate mineralization deep inside bone. Six-week-old male mice were subcutaneously injected with 20 μg/kg/day of human PTH (1–34) two times per day (n = 6) or four times per day (n = 6) for two weeks. Additionally, control mice (n = 6) received a vehicle. Consistently with an increase in the volume of the femoral trabeculae, the mineral appositional rate increased after PTH administration. The areas positive for PHOSPHO1, TNALP, and ENPP1 in the femoral metaphyses expanded, and the gene expressions assessed by real-time PCR were elevated in PTH-administered specimens when compared with the findings in control specimens. The immunoreactivity and/or gene expressions of PHEX and the SIBLING family (MEPE, osteopontin, and DMP1) significantly increased after PTH administration. For example, MEPE immunoreactivity was evident in some osteocytes in PTH-administered specimens but was hardly observed in control specimens. In contrast, mRNA encoding cathepsin B was significantly reduced. Therefore, the bone matrix deep inside might be further mineralized by PHEX/SIBLING family after PTH administration. In summary, it is likely that PTH accelerates mineralization to maintain a balance with elevated matrix synthesis, presumably by mediating TNALP/ENPP1 cooperation and stimulating PHEX/SIBLING family expression. [ABSTRACT FROM AUTHOR]

Published

2023

22. Identification of novel pyrrolopyrimidine and pyrrolopyridine derivatives as potent ENPP1 inhibitors

Author

Hee Jin Jeong, Hye Lim Lee, Sung Joon Kim, Jeong Hyun Jeong, Su Hyun Ji, Han Byeol Kim, Miso Kang, Hwan Won Chung, Chan Sun Park, Hyunah Choo, Hyo Jae Yoon, Nam-Jung Kim, Duck-Hyung Lee, Sanghee Lee, and Seo-Jung Han

Subjects

ENPP1, STING, innate immunity, cancer immunotherapy, Therapeutics. Pharmacology, RM1-950

Abstract

In an effort to discover novel scaffolds of non-nucleotide-derived Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) inhibitors to stimulate the Stimulator of Interferon Genes (STING) pathway, we designed and synthesised pyrrolopyrimidine and pyrrolopyridine derivatives and performed structure-activity relationship (SAR) study. We found 18p possessed high potency (IC50 = 25.0 nM) against ENPP1, and activated STING pathway in a concentration dependent manner. Also, in response to STING pathway activation, cytokines such as IFN-β and IP-10 were induced by 18p in a concentration dependent manner. Finally, we discovered that 18p causes inhibition of tumour growth in 4T1 syngeneic mouse model. This study provides new insight into the designing of novel ENPP1 inhibitors and warrants further development of small molecule immune modulators for cancer immunotherapy.

Published

2022

23. ENPP1 deletion causes mouse osteoporosis via the MKK3/p38 MAPK/PCNA signaling pathway

Author

Qiang Wang, Zhiqiang Gao, Kai Guo, Jiawei Lu, Feng Wang, Yufeng Huang, and Desheng Wu

Subjects

Osteoporosis, Proliferation, Enpp1, p38 MAPK, Lysophosphatidic acid, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Apart from the current understanding of enzyme function, the mechanism of ectonucleotide pyrophosphatase/phosphodiesterase 1 (Enpp1) deficiency-associated osteoporosis is unknown. We aimed to explore the changes in the expression of signaling pathways of bone tissues involved in Enpp1 deficiency. Methods The body weights and morphology and histology of the bones of male Enpp1 knockout (KO) and wild-type (WT) mice were assessed. The humeri of WT and Enpp1 KO mice at 12 weeks of age were subjected to high-throughput quantitative molecular measurements, and bioinformatics analysis was performed. Proteins from humeri and calvarial pre-osteoblasts (Pobs) were used to verify the differentially expressed signaling pathways and to explain the mechanism of Enpp1 deficiency-associated osteoporosis. Results Enpp1 KO mice had significantly lower body weight and trabecular bone mass in the hindlimbs than WT mice. Proteomics and immunoblotting showed that Enpp1 deletion downregulated the expression of the p38 mitogen-activated protein kinase (MAPK) signaling pathway in bones. Lysophosphatidic acid (LPA) was involved in activating the MKK3/p38 MAPK/PCNA pathway and proliferating Pobs in Enpp1 KO mice, whereas a p38 MAPK inhibitor suppressed the LPA-induced pro-proliferation phenotype (p

Published

2022

24. Case report: Multiple arterial stenoses induced by autosomal-recessive hypophosphatemic rickets type 2 associated with mutation of ENPP1: a case study

Author

Jie Liu, Xitao Song, Daming Zhang, Yan Jiang, Mingsheng Ma, Zhengqing Qiu, Weibo Xia, and Yuexin Chen

Subjects

arterial stenosis, ENPP1, autosomal-recessive hypophosphatemic rickets-2, hypertension, childhood, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1)-related multiple arterial stenoses is a rare clinical syndrome in which global arterial calcification begins in infancy, with a high probability of early mortality, and hypophosphatemic rickets develops later in childhood. The vascular status of an ENPP1-mutated patient when they enter the rickets phase has not been thoroughly explored. In this study, we presented a case of an adolescent with an ENPP1 mutation who complained of uncontrolled hypertension. Systematic radiography showed renal, carotid, cranial, and aortic stenoses as well as random calcification foci on arterial walls. The patient was incorrectly diagnosed with Takayasu’s arteritis, and cortisol therapy had little effect on reducing the vascular stenosis. As a result, phosphate replacement, calcitriol substitution, and antihypertensive medication were prescribed, and the patient was discharged for further examination. This research presented the vascular alterations of an ENPP1-mutanted patient, and while there is less calcification, intimal thickening may be the primary cause of arterial stenosis.

Published

2023

25. 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

26. Small molecule ectonucleotide pyrophosphatase/phosphodiesterase 1 inhibitors in cancer immunotherapy for harnessing innate immunity.

Author

Choi, Junwon

Subjects

*NATURAL immunity, *SMALL molecules, *INORGANIC pyrophosphatase, *IMMUNOTHERAPY, *GUANYLIC acid, *PROGRAMMED cell death 1 receptors

Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) was recently identified as a major hydrolase of an endogenous stimulator of interferon genes (STING) agonist, 2′,3′‐cyclic guanosine monophosphate–adenosine monophosphate (cGAMP). ENPP1 is a promising therapeutic target in cancer immunotherapy, in which the inhibition of ENPP1 enhances anticancer immunity via STING‐mediated innate immune activation. This review highlights the role of ENPP1 in innate immunity and the recent discovery of small molecule ENPP1 inhibitors as immunomodulators in cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

27. ENPP1 ameliorates vascular calcification via inhibiting the osteogenic transformation of VSMCs and generating PPi.

Author

Xiujuan Wu, Shuijuan Shen, Jiaying Wu, Shaorui Wu, Shimi Wang, and Feng Di

Abstract

This study aims to investigate the impact of ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) on vascular calcification in rats. The rationale behind studying ENPP1’s role in vascular calcification lies in its potential to modulate calcification processes. Understanding this relationship can offer insights into novel therapeutic avenues for addressing vascular calcification-related disorders. In this experiment, vascular smooth muscle cell (VSMC) calcification was induced using β-glycerophosphoric acid. Subsequently, recombinant AAV9-carrying ENPP1 was introduced into VSMCs to achieve both in vitro and in vivo overexpression of ENPP1. The findings indicate that ENPP1 overexpression significantly reduces calcium and phosphorus content in the aorta (P < 0.05). Alizarin red and von Kossa staining reveal notable reductions in calcium salt deposits in VSMCs and aorta, respectively. Notably, the expression levels of BMP-2, PINP, OC, and BALP were substantially decreased in VSMCs (P < 0.05), underscoring ENPP1’s role in impeding osteoblastlike transdifferentiation of VSMCs. Additionally, ENPP1 overexpression led to a significant increase in pyrophosphate (PPi) levels compared to control rats (P < 0.05). In conclusion, this study suggests that ENPP1 contributes to alleviating vascular calcification by elevating PPi levels and inhibiting the phenotypic transformation of VSMCs. These findings shed light on the potential therapeutic role of ENPP1 in mitigating vascular calcification-related complications. [ABSTRACT FROM AUTHOR]

Published

2023

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

Author

Suntharesan, Jananie, Agarwal, Umber, Lim, Joyce, Collingwood, Catherine, Avula, Shivaram, Mughal, M. Zulf, Nitschke, Yvonne, Botschen, Ulrike, Rutsch, Frank, and Ramakrishnan, Renuka

Abstract

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

Published

2022

29. Vascular calcification in chronic kidney disease associated with pathogenic variants in ABCC6.

Author

Schott, Clara, Dilliott, Allison A., Wang, Jian, McIntyre, Adam D., Son, Surim, Colaiacovo, Samantha, Baker, Cadence, Gunaratnam, Lakshman, House, Andrew A., Susan Huang, Shih-Han, Iyer, Hariharan, Johnson, John, Lotfy, Khaled, Masellis, Mario, Munoz, Douglas P., Rehman, Faisal, Roshanov, Pavel S., Swartz, Richard H., Weir, Matthew A., and Hegele, Robert A.

Subjects

*ARTERIAL calcification, *KIDNEY calcification, *CHRONIC kidney failure, *KIDNEY diseases, *GENETIC variation

Abstract

[Display omitted] • Vascular calcification is prevalent in chronic kidney disease patients. • ABCC6 is a candidate gene for vascular calcification seen in kidney disease. • ABCC6 variants cause a pseudoxanthoma elasticum phenotype with calcification. • Pathogenic ABCC6 variants are more common in calcification patients than controls. • ABCC6 and ENPP1 in the ectopic calcification pathway may be digenic. Vascular calcification is prevalent in chronic kidney disease (CKD). Genetic causes of CKD account for 10–20% of adult-onset disease. Vascular calcification is thought to be one of the most important risk factors for increased cardiovascular morbidity and mortality in CKD patients and is detectable in 80% of patients with end stage kidney disease (ESKD). Despite the high prevalence of vascular calcification in CKD, no single gene cause has been described. We hypothesized that variants in vascular calcification genes may contribute to disease pathogenesis in CKD, particularly in families who exhibit a predominant vascular calcification phenotype. We developed a list of eight genes that are hypothesized to play a role in vascular calcification due to their involvement in the ectopic calcification pathway: ABCC6, ALPL, ANK1, ENPP1, NT5E, SLC29A1, SLC20A2, and S100A12. With this, we assessed exome data from 77 CKD patients, who remained unsolved following evaluation for all known monogenic causes of CKD. We also analyzed an independent cohort (Ontario Neurodegenerative Disease Research Initiative (ONDRI), n = 520) who were screened for variants in ABCC6 and compared this to a control cohort of healthy adults (n = 52). We identified two CKD families with heterozygous pathogenic variants (R1141X and A667fs) in ABCC6. We identified 10 participants from the ONDRI cohort with heterozygous pathogenic or likely pathogenic variant in ABCC6. Replication in a healthy control cohort did not reveal any variants. Our study provides preliminary data supporting the hypothesis that ABCC6 may play a role in vascular calcification in CKD. By screening CKD patients for genetic causes early in the diagnostic pathway, patients with genetic causes associated with vascular calcification can potentially be preventatively treated with new therapeutics with aims to decrease mortality. [ABSTRACT FROM AUTHOR]

Published

2024

30. [1,2,4]Triazolo[1,5-a]pyrimidine derivatives: Structure-activity relationship study leading to highly selective ENPP1 inhibitors.

Author

Kawaguchi, Mitsuyasu, Minami, Shohei, Ieda, Naoya, and Nakagawa, Hidehiko

Subjects

*STRUCTURE-activity relationships, *PYRIMIDINE derivatives, *TRANSMISSIBLE tumors, *EXTRACELLULAR enzymes, *NATURAL immunity, *PYRIMIDINES

Abstract

[Display omitted] The STING (stimulator of interferon genes) pathway is one of the pathways that regulate innate immunity, and the extracellular hydrolytic enzyme ecto-nucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) has been identified as its dominant negative regulator. Since activation of the innate immune system is a promising strategy for the treatment of various infectious diseases and cancers, ENPP1 inhibitors have attracted great attention as candidate drugs. We have previously identified small-molecule ENPP1 inhibitors having a [1,2,4]triazolo[1,5- a ]pyrimidine scaffold by means of chemical screening using a fluorescence probe, TG-mAMP. In this study, we evaluated the structure–activity relationships of the hit and lead compounds in detail, and succeeded in developing compounds that strongly and selectively inhibit ENPP1 not only in vitro , but also in cellular systems. [ABSTRACT FROM AUTHOR]

Published

2024

31. Clinical presentation and burden of ENPP1 deficiency in adults.

Author

Seefried, Lothar

Subjects

*RICKETS, *HEALTH of adults, *ARTERIAL calcification, *OSTEOPOROSIS, *EXOSTOSIS

Abstract

While the clinical consequences of severe ENPP1 deficiency leading to the rare disorders generalized arterial calcification of infancy (GACI) and autosomal recessive hypophosphatemic rickets type 2 (ARHR2) are well defined and understood, much less is known about how this evolves into adulthood and how moderate ENPP1 deficiency can first manifest in adulthood. Moreover, growing evidence substantiates an association of genetic variants in the ENPP1 gene with a wide range of further clinical manifestations including early-onset osteoporosis, osteoarthritis, and different forms of spinal ligament calcifications, i.e., diffuse idiopathic skeletal hyperostosis (DISH) and ossification of the posterior/anterior longitudinal ligament (OPLL/OALL). Furthermore, conditions with primarily extraskeletal signs and symptoms such as Cole disease, coagulopathies, and metabolic syndrome can seemingly result from ENPP1 variants. The causality and the pathophysiology behind these different clinical presentations appear complex and require further research, especially since the coincidence of these different phenotypes is rarely described and available evidence suggests that part of the aforementioned manifestations may result from ENPP1 effects beyond the catalytic activity of processing ATP to AMP and inorganic pyrophosphate (PPi). Growing awareness of the additional ENPP1 -related manifestations across the lifespan will advance our understanding of this complex condition and help to standardize diagnostic approaches and develop individually tailored treatment concepts. [ABSTRACT FROM AUTHOR]

Published

2024

32. Generalized Arterial Calcification of Infancy (GACI).

Author

Baujat, Geneviève and Besançon, Alix

Subjects

*ARTERIAL calcification, *BONE density, *HYPOPHOSPHATEMIA, *PATHOLOGICAL physiology, *FOLLOW-up studies (Medicine)

Abstract

Generalized arterial calcification of infancy (GACI) is an ultra-rare autosomal recessive disorder associated with pathogenic variants in ENPP1, the major gene involved in this condition, and in ABCC6, which is involved in a small fraction of affected individuals. Loss-of-function pathogenic variants of ENPP1 and ABCC6 lead to perturbations in the PPi/Pi ratio, thereby promoting hydroxyapatite mineralization in peripheral tissues. GACI is initially characterized by an abnormal ectopic mineralization process in arteries and soft tissue. Nearly half of the patients die within the first 6 months of life from cardiovascular complications, hence the poor prognosis associated with an early diagnosis. In recent years, progress has been made in our understanding of the long-term natural history of GACI, the intricate symptoms due to vascular calcifications, the overmineralization of soft tissues, of hypophosphatemia designated as ARHR2, and of the consequences such as undermineralization of the skeleton, but also of the features possibly seen in pseudoxanthoma elasticum (PXE). Indeed, GACI, PXE, and ARHR2 share common pathophysiological pathways and clinical features beyond the vascular calcifications. Treatment options for severe forms of GACI are mostly based on symptomatic management, including the option of starting bisphosphonates early after birth, such as etidronate and pamidronate, analogues of PPi. Follow-up within an expert and coordinated multidisciplinary team includes treatment of arterial hypertension, calcitriol and phosphorus adjustments, hearing aids, and early detection of possible angioid streaks. It is hoped that ongoing basic and clinical research will lead to the development of effective therapies that specifically target the abnormal PPi regulation and the other mechanisms involved in this disorder. [ABSTRACT FROM AUTHOR]

Published

2024

33. Quantitative correlation of ENPP1 pathogenic variants with disease phenotype.

Author

Ansh, Anenya Jai, Stabach, Paul R., Ciccone, Carla, Cao, Wenxiang, De La Cruz, Enrique M., Sabbagh, Yves, Carpenter, Thomas O., Ferreira, Carlos R., and Braddock, Demetrios T.

Subjects

*ARTERIAL calcification, *CALCINOSIS cutis, *RELATIVE velocity, *PHENOTYPES, *INSULIN resistance, *CALCIPHYLAXIS

Abstract

Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) codes for a type 2 transmembrane glycoprotein which hydrolyzes extracellular phosphoanhydrides into bio-active molecules that regulate, inter alia , ectopic mineralization, bone formation, vascular endothelial proliferation, and the innate immune response. The clinical phenotypes produced by ENPP1 deficiency are disparate, ranging from life-threatening arterial calcifications to cutaneous hypopigmentation. To investigate associations between disease phenotype and enzyme activity we quantified the enzyme velocities of 29 unique ENPP1 pathogenic variants in 41 patients enrolled in an NIH study along with 33 other variants reported in literature. We correlated the relative enzyme velocities with the presenting clinical diagnoses, performing the catalytic velocity measurements simultaneously in triplicate using a high-throughput assay to reduce experimental variation. We found that ENPP1 variants associated with autosomal dominant phenotypes reduced enzyme velocities by 50 % or more, whereas variants associated with insulin resistance had non-significant effects on enzyme velocity. In Cole disease the catalytic velocities of ENPP1 variants associated with AD forms trended to lower values than those associated with autosomal recessive forms – 8-32 % vs. 33 % of WT, respectively. Additionally, ENPP1 variants leading to life-threatening vascular calcifications in GACI patients had widely variable enzyme activities, ranging from no significant differences compared to WT to the complete abolishment of enzyme velocity. Finally, disease severity in GACI did not correlate with the mean enzyme velocity of the variants present in affected compound heterozygotes but did correlate with the more severely damaging variant. In summary, correlation of ENPP1 enzyme velocity with disease phenotypes demonstrate that enzyme velocities below 50 % of WT levels are likely to occur in the context of autosomal dominant disease (due to a monoallelic variant), and that disease severity in GACI infants correlates with the more severely damaging ENPP1 variant in compound heterozygotes, not the mean velocity of the pathogenic variants present. • ENPP1 pathogenic variants induce disease in AR and AD inheritance patterns. • ENPP1 enzyme velocities <50% induced disease phenotypes in an AD manner. • Compound GACI patients possessed pathogenic variants without reduced activity. • Disease severity in GACI correlated with the more severely damaging ENPP1 allele. • Variants associated with metabolic syndrome exhibit WT catalytic activities. [ABSTRACT FROM AUTHOR]

Published

2024

34. ENPP1 deletion causes mouse osteoporosis via the MKK3/p38 MAPK/PCNA signaling pathway.

Author

Wang, Qiang, Gao, Zhiqiang, Guo, Kai, Lu, Jiawei, Wang, Feng, Huang, Yufeng, and Wu, Desheng

Subjects

*BONE metabolism, *BONES, *MOLECULAR diagnosis, *BODY weight, *ANIMAL experimentation, *OSTEOBLASTS, *CELLULAR signal transduction, *OSTEOPOROSIS, *BIOINFORMATICS, *PROTEOMICS, *IMMUNOBLOTTING, *GLYCOPROTEINS, *HUMERUS, *HISTOLOGY, *BONE density, *MITOGEN-activated protein kinases, *PHOSPHOLIPIDS, *MICE, *ENZYME inhibitors, *PHENOTYPES, *PHARMACODYNAMICS, *DISEASE risk factors

Abstract

Background: Apart from the current understanding of enzyme function, the mechanism of ectonucleotide pyrophosphatase/phosphodiesterase 1 (Enpp1) deficiency-associated osteoporosis is unknown. We aimed to explore the changes in the expression of signaling pathways of bone tissues involved in Enpp1 deficiency. Methods: The body weights and morphology and histology of the bones of male Enpp1 knockout (KO) and wild-type (WT) mice were assessed. The humeri of WT and Enpp1 KO mice at 12 weeks of age were subjected to high-throughput quantitative molecular measurements, and bioinformatics analysis was performed. Proteins from humeri and calvarial pre-osteoblasts (Pobs) were used to verify the differentially expressed signaling pathways and to explain the mechanism of Enpp1 deficiency-associated osteoporosis. Results: Enpp1 KO mice had significantly lower body weight and trabecular bone mass in the hindlimbs than WT mice. Proteomics and immunoblotting showed that Enpp1 deletion downregulated the expression of the p38 mitogen-activated protein kinase (MAPK) signaling pathway in bones. Lysophosphatidic acid (LPA) was involved in activating the MKK3/p38 MAPK/PCNA pathway and proliferating Pobs in Enpp1 KO mice, whereas a p38 MAPK inhibitor suppressed the LPA-induced pro-proliferation phenotype (p < 0.05). Conclusion: The inhibition of MKK3/p38 MAPK/PCNA pathway plays an important role in the development of osteoporosis caused by Enpp1 deficiency, and LPA partially rescued the proliferation of pre-osteoblasts via the MKK3/p38 MAPK/PCNA pathway. [ABSTRACT FROM AUTHOR]

Published

2022

35. Mutation update: Variants of the ENPP1 gene in pathologic calcification, hypophosphatemic rickets, and cutaneous hypopigmentation with punctate keratoderma.

Author

Ralph, Douglas, Levine, Michael A., Richard, Gabriele, Morrow, Michelle M., Flynn, Elizabeth K., Uitto, Jouni, and Li, Qiaoli

Abstract

ENPP1 encodes ENPP1, an ectonucleotidase catalyzing hydrolysis of ATP to AMP and inorganic pyrophosphate (PPi), and an endogenous plasma protein physiologically preventing ectopic calcification of connective tissues. Mutations in ENPP1 have been reported in association with a range of human genetic diseases. In this mutation update, we provide a comprehensive review of all the pathogenic variants, likely pathogenic variants, and variants of unknown significance in ENPP1 associated with three autosomal recessive disorders—generalized arterial calcification of infancy (GACI), autosomal recessive hypophosphatemic rickets type 2 (ARHR2), and pseudoxanthoma elasticum (PXE), as well as with a predominantly autosomal dominant disorder—Cole disease. The classification of all variants is determined using the latest ACMG guidelines. A total of 140 ENPP1 variants were curated consisting of 133 previously reported variants and seven novel variants, with missense variants being the most prevalent (70.0%, 98/140). While the pathogenic variants are widely distributed in the ENPP1 gene of patientsgen without apparent genotype–phenotype correlation, eight out of nine variants associated with Cole disease are confined to the somatomedin‐B‐like (SMB) domains critical for homo‐dimerization of the ENPP1 protein. [ABSTRACT FROM AUTHOR]

Published

2022

36. Evaluating and targeting mechanisms of immune evasion in cancer

Author

Solomon, Paige Elana

Subjects

Chemistry, antibody engineering, cancer, ENPP1, proteomics, type 1 interferon

Abstract

Immunotherapies such as adoptive cell therapies and checkpoint inhibitors are curing previously lethal cancers, however only a small fraction of patients are responsive. A major predictor of the response to immunotherapy is the extent of tumor infiltrating lymphocytes (TILs) in the tumor microenvironment. Unfortunately, most solid tumors exclude TILs through various immunosuppressive mechanisms and are classified as immune ‘cold’ tumors. In this thesis research, we studied how the expression of dominant oncogenes broadly modulates immune evasion phenotypes across cancer models. We translated those findings into therapeutic antibodies that stimulate innate immune pathways to turn immune ‘cold’ tumors ‘hot’ and improve response rates to immunotherapies.In Chapter 1 we used discovery proteomics to characterize isogenic models of driver oncogenes (Myc, KRAS, BRAF, MEK, AKT, HER2, EGFR) and identify common axes of dysregulation. From an unbiased approach, the most ubiquitous and dramatic molecular and functional phenotype across oncogenes was the suppression of proteins regulated by type 1 interferon, particularly antiviral dsRNA sensors. These effects were validated in patient- and cancer-derived tumor cells driven by KRAS and/or Myc oncogenes. These results have broad implications for standard therapies like radiation, epigenetic and cytotoxic drugs, and immunotherapies that require type 1 interferon and antiviral pathways for their cytotoxic effects, and suggest opportunities for oncolytic and gene-therapy viruses.In Chapter 2 we used in vitro display technologies and protein engineering to build therapeutic antibodies that re-activate innate immune signaling in the tumor microenvironment. ENPP1 is an extracellular phosphodiesterase that hydrolyzes cGAMP, an immunostimulant that is transported between cells to activate type 1 interferon. ENPP1 is frequently up-regulated on tumor cells, and small molecule drugs have shown inhibiting ENPP1 stimulates type 1 interferon signaling and sensitizes immune ‘cold’ tumors to radiation and immunotherapy. Here, we generated first-in-class variable heavy (VH) single-domain antibodies that bind and allosterically inhibit ENPP1. The VH domains were recombinantly engineered into multivalent formats and immunotherapies that improved their selectivity and potency. A cryo-EM structure of the VH-ENPP1 complex revealed its allosteric inhibitory epitope and a novel mechanism of substrate-selective inhibition.

Published

2023

37. Novel treatment for PXE: Recombinant ENPP1 enzyme therapy.

Author

Jacobs IJ, Obiri-Yeboah D, Stabach PR, Braddock DT, and Li Q

Subjects

Animals, Mice, Humans, Mice, Knockout, Diphosphates metabolism, Disease Models, Animal, Recombinant Proteins genetics, Pyrophosphatases genetics, Pyrophosphatases metabolism, Phosphoric Diester Hydrolases genetics, Phosphoric Diester Hydrolases metabolism, Pseudoxanthoma Elasticum genetics, Pseudoxanthoma Elasticum drug therapy, Multidrug Resistance-Associated Proteins genetics, Multidrug Resistance-Associated Proteins metabolism

Abstract

Pseudoxanthoma elasticum (PXE) is a genetic multisystem ectopic calcification disorder caused by inactivating mutations in the ABCC6 gene encoding ABCC6, a hepatic efflux transporter. ABCC6-mediated ATP secretion by the liver is the main source of a potent endogenous calcification inhibitor, plasma inorganic pyrophosphate (PPi); the deficiency of plasma PPi underpins PXE. Recent studies demonstrated that INZ-701, a recombinant human ENPP1 that generates PPi and is now in clinical trials, restored plasma PPi levels and prevented ectopic calcification in the muzzle skin of Abcc6 -/- mice. This study examined the pharmacokinetics, pharmacodynamics, and potency of a new ENPP1-Fc isoform, BL-1118, in Abcc6 -/- mice. When Abcc6 -/- mice received a single subcutaneous injection of BL-1118 at 0.25, 0.5, or 1 mg/kg, they had dose-dependent elevations in plasma ENPP1 enzyme activity and PPi levels, with an enzyme half-life of approximately 100 h. When Abcc6 -/- mice were injected weekly from 5 to 15 weeks of age, BL-1118 dose-dependently increased steady-state plasma ENPP1 activity and PPi levels and significantly reduced ectopic calcification in the muzzle skin and kidneys. These results suggest that BL-1118 is a promising second generation enzyme therapy for PXE, the first generation of which is currently in clinical testing., Competing Interests: Declaration of interests D.T.B. and P.R.S. are inventors on patents owned by Yale University for therapeutics treating ENPP1 deficiency. D.T.B. is an equity holder and receives research and consulting support from Inozyme Pharma, Inc., (Copyright © 2024 The American Society of Gene and Cell Therapy. Published by Elsevier Inc. All rights reserved.)

Published

2024

38. Role of ENPP1 in cancer pathogenesis: Mechanisms and clinical implications (Review).

Author

Zhao L, Zhang Y, Tian Y, Ding X, Lin R, Xiao L, Peng F, Zhang K, and Yang Z

Abstract

Cancer is a significant societal, public health and economic challenge in the 21st century, and is the primary cause of death from disease globally. Ectonucleotide pyrophosphatase/phosphodiesterase (ENPP) serves a crucial role in several biochemical processes, including adenosine triphosphate hydrolysis, purine metabolism and regulation of signaling pathways. Specifically, ENPP1, a type II transmembrane glycoprotein and key member of the ENPP family, may be upregulated in tumor cells and implicated in the pathogenesis of multiple human cancers. The present review provides an overview of the structural, pathological and physiological roles of ENPP1 and discusses the potential mechanisms of ENPP1 in the development of cancers such as breast, colon, gallbladder, liver and lung cancers, and also summarizes the four major signaling pathways in tumors. Furthermore, the present review demonstrates that ENPP1 serves a crucial role in cell migration, proliferation and invasion, and that corresponding inhibitors have been developed and associated with clinical characterization., Competing Interests: The authors declare that they have no competing interests., (Copyright: © 2024 Zhao et al.)

Published

2024

39. Regulation of TGF-β1-induced fibroblast differentiation of human periodontal ligament stem cells through the mutually antagonistic action of ectonucleotide pyrophosphatase/phosphodiesterase 1 and 2.

Author

Ju O, Ko SY, and Jang YJ

Abstract

Human periodontal ligament stem cells (hPDLSCs) differentiate into periodontal ligament (PDL) fibroblasts, osteoblasts, and cementoblasts. To identify inducers of PDL fibroblastic differentiation, monoclonal antibody series were developed a series of against membrane/extracellular matrix (ECM) molecules through decoy immunization. The anti-PDL13 antibody targets ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1), renowned for regulating skeletal and soft tissue mineralization. ENPP1 accumulates in the periodontal ligament region of tooth roots, and specifically localizes to the cell boundaries and elongated processes of the fibroblastic cells. As ENPP1 expression increases during fibroblastic differentiation, mineralization induced by tissue-nonspecific alkaline phosphatase (TNAP), a pyrophosphate-degrading enzyme, is completely inhibited. This is consistent with ENPP1 and TNAP acting in opposition, and TGF-β1-induced ENPP1 expression creates an essential environment for PDL fibroblast differentiation. Representative fibroblastic differentiation markers decrease with endogenous ENPP1 inhibition by siRNA and antibody blocking. ENPP2 generates lipid signaling molecules. In contrast to ENPP1, ENPP2 disappears in TGF-β1-induced PDL fibroblasts. Ectopic expression of ENPP2 hinders TGF-β1-induced PDL fibroblastic differentiation. Suppression of ENPP1 and ENPP2 leads to severe defects in undifferentiated and differentiated cells, demonstrating that these two factors play opposing roles in soft and hard tissue differentiation but can complement each other for cell survival. In conclusion, increased ENPP1 is crucial for TGF-β1-induced PDL differentiation, while ENPP2 and TNAP can inhibit ENPP1. ENPP1 and ENPP2 exhibit complementary functions in the cell survival., 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., (Copyright © 2024 Ju, Ko and Jang.)

Published

2024

40. Association of the ENPP1/ENTPD1 Polymorphisms in Hemodialysis Patients

Author

Zhang X, Wan Z, Cheng S, and Gan H

Subjects

chronic kidney disease, ckd, single nucleotide polymorphisms, snps, ectonucleotide pyrophosphatase/phosphodiesterase 1, enpp1, ectonucleoside triphosphate diphosphohydrolase 1, entpd1, rs1044498, rs6584026, Medicine (General), R5-920

Abstract

Xi Zhang,1 Ziming Wan,1 Si Cheng,2 Hua Gan1 1Department of Nephrology, The First Affiliated Hospital of Chongqing Medical University, Chongqing, People’s Republic of China; 2Department of Orthopaedics, The Second Affiliated Hospital of Chongqing Medical University, Chongqing, People’s Republic of ChinaCorrespondence: Hua GanDepartment of Nephrology, The First Affiliated Hospital of Chongqing Medical University, Chongqing, People’s Republic of ChinaEmail correspondzx@126.comIntroduction: ENPP1 and ENTPD1 are two main enzymes involved in ATP-AMP-ADP-adenosine axis, which is associated with lipid metabolism, diabetes mellitus (DM) and renal fibrosis. The single nucleotide polymorphisms (SNPs) of ENPP1 and ENTPD1, rs1044498 and rs6584026, are associated with these factors. This retrospective study aimed to address the two SNPs variants in hemodialysis (HD) patients and analyzes their relations with clinical characteristics.Methods: This study included 543 regular HD patients over 3 months at our center. Overnight fasting peripheral blood sample was taken from each subject to extract the DNA. The genotypes of rs1044498 and rs6584026 were detected by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method. The basic clinical data were noted such as sex, age, and HD-age, and the main causes of chronic kidney disease (CKD) and the clinical characteristics were collected on average at least three times in half a year. T-test and Chi-test were performed for the statistical analyses. Binary logistic regression was applied for the significant parameters by excluding the confounders, gender, age and HD-age. All statistical tests were considered significant for P< 0.05.Results: The rs1044498 genotypes showed in two types, A/A and A/C without C/C. The rs6584026 genotypes were C/C and C/T without T/T. The genotype frequency of rs1044498 (A/C) was 0.238, and the genotype frequency of rs6584026 (C/T) was 0.328. The age and the level of lipoprotein α showed statistical significance with rs1044498 variant (A/C, P< 0.05). The rs6584026 variant (C/T) was frequently found in patients with nephritis (P< 0.05). The albumin, alkaline phosphatase (ALP), lipoprotein α, cholesterol, apolipoprotein B (Apo B), Apo B/A1 and nephritis were independently associated with rs6584026 variant (C/T, P< 0.05) in binary logistic regression model by controlling the confounders of gender, age and HD-age. High level of triglyceride and low level of urine nitrogen were related to rs6584026 variant (C/T, P< 0.05).Conclusion: The rs1044498 and rs6584026 SNPs were related to several high levels of lipids, and rs6584026 variant was related to nephritis and autoimmune disease. The rs6584026 SNP may contribute to the increased risks of cholesterol and ApoB/A1 in HD patients.Keywords: chronic kidney disease, CKD, single nucleotide polymorphisms, SNPs, ectonucleotide pyrophosphatase/phosphodiesterase 1, ENPP1, ectonucleoside triphosphate diphosphohydrolase 1, ENTPD1, rs1044498, rs6584026

Published

2021

41. Immunolocalization of Enzymes/Membrane Transporters Related to Bone Mineralization in the Metaphyses of the Long Bones of Parathyroid-Hormone-Administered Mice

Author

Takahito Mae, Tomoka Hasegawa, Hiromi Hongo, Tomomaya Yamamoto, Shen Zhao, Minqi Li, Yutaka Yamazaki, and Norio Amizuka

Subjects

mineralization, parathyroid hormone, ENPP1, TNALP, PHEX, MEPE, Medicine (General), R5-920

Abstract

The present study aimed to demonstrate the immunolocalization and/or gene expressions of the enzymes and membrane transporters involved in bone mineralization after the intermittent administration of parathyroid hormone (PTH). The study especially focused on TNALP, ENPP1, and PHOSPHO1, which are involved in matrix vesicle-mediated mineralization, as well as PHEX and the SIBLING family, which regulate mineralization deep inside bone. Six-week-old male mice were subcutaneously injected with 20 μg/kg/day of human PTH (1–34) two times per day (n = 6) or four times per day (n = 6) for two weeks. Additionally, control mice (n = 6) received a vehicle. Consistently with an increase in the volume of the femoral trabeculae, the mineral appositional rate increased after PTH administration. The areas positive for PHOSPHO1, TNALP, and ENPP1 in the femoral metaphyses expanded, and the gene expressions assessed by real-time PCR were elevated in PTH-administered specimens when compared with the findings in control specimens. The immunoreactivity and/or gene expressions of PHEX and the SIBLING family (MEPE, osteopontin, and DMP1) significantly increased after PTH administration. For example, MEPE immunoreactivity was evident in some osteocytes in PTH-administered specimens but was hardly observed in control specimens. In contrast, mRNA encoding cathepsin B was significantly reduced. Therefore, the bone matrix deep inside might be further mineralized by PHEX/SIBLING family after PTH administration. In summary, it is likely that PTH accelerates mineralization to maintain a balance with elevated matrix synthesis, presumably by mediating TNALP/ENPP1 cooperation and stimulating PHEX/SIBLING family expression.

Published

2023

42. Development of Novel Ecto-Nucleotide Pyrophosphatase/Phosphodiesterase 1 (ENPP1) Inhibitors for Tumor Immunotherapy.

Author

Wang, Xiang, Lu, Xing, Yan, Daojing, Zhou, Yajun, and Tan, Xiangshi

Subjects

*METASTATIC breast cancer, *CYCLIC guanylic acid, *INORGANIC pyrophosphatase, *MASS spectrometry, *IMMUNOTHERAPY, *PROTEIN kinases

Abstract

The cyclic guanosine monophosphate–adenosine monophosphate synthase–stimulator of interferon genes–TANK-binding kinase 1–interferon regulating factor 3 (cGAS-STING-TBK1-IRF3) axis is now acknowledged as the major signaling pathway in innate immune responses. However, 2′,3′-cGAMP as a STING stimulator is easily recognized and degraded by ecto-nucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1), which reduces the effect of tumor immunotherapy and promotes metastatic progression. In this investigation, the structure-based virtual screening strategy was adopted to discover eight candidate compounds containing zinc-binding quinazolin-4(3H)-one scaffold as ENPP1 inhibitors. Subsequently, these novel inhibitors targeting ENPP1 were synthesized and characterized by NMR and high-resolution mass spectra (HRMS). In bioassays, 7-fluoro-2-(((5-methoxy-1H-imidazo[4,5-b]pyridin-2-yl)thio)methyl)quina-zolin-4(3H)-one(compound 4e) showed excellent activity against the ENPP1 at the molecular and cellular levels, with IC50 values of 0.188 μM and 0.732 μM, respectively. Additionally, compound 4e had superior selectivity towards metastatic breast cancer cells (4T1) than towards normal cells (LO2 and 293T) in comparison with cisplatin, indicating that compound 4e can potentially be used in metastatic breast cancer therapy. On the other hand, compound 4e upgraded the expression levels of IFN-β in vivo by preventing the ENPP1 from hydrolyzing the cGAMP to stimulate a more potent innate immune response. Therefore, this compound might be applied to boost antitumor immunity for cancer immunotherapy. Overall, our work provides a strategy for the development of a promising drug candidate targeting ENPP1 for tumor immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2022

43. Biochemistry, Cell Biology, and Pathophysiology of the Innate Immune cGAS–cGAMP–STING Pathway.

Author

Ritchie, Christopher, Carozza, Jacqueline A., and Li, Lingyin

Abstract

In the decade since the discovery of the innate immune cyclic GMP–AMP synthase (cGAS)–2′3′-cyclic GMP–AMP (cGAMP)–stimulator of interferon genes (STING) pathway, its proper activation and dysregulation have been rapidly implicated in many aspects of human disease. Understanding the biochemical, cellular, and regulatory mechanisms of this pathway is critical to developing therapeutic strategies that either harness it to boost defense or inhibit it to prevent unwanted inflammation. In this review, we first discuss how the second messenger cGAMP is synthesized by cGAS in response to double-stranded DNA and cGAMP's subsequent activation of cell-type-dependent STING signaling cascades with differential physiological consequences. We then review how cGAMP as an immunotransmitter mediates tightly controlled cell–cell communication by being exported from producing cells and imported into responding cells via cell-type-specific transporters. Finally, we review mechanisms by which thecGAS–cGAMP–STING pathway responds to different sources of mislocalized double-stranded DNA in pathogen defense, cancer, and autoimmune diseases. [ABSTRACT FROM AUTHOR]

Published

2022

44. ENPP1's regulation of extracellular cGAMP is a ubiquitous mechanism of attenuating STING signaling.

Author

Carozza, Jacqueline A., Cordova, Anthony F., Brown, Jenifer A., AlSaif, Yasmeen, Böhnert, Volker, Xujun Cao, Mardjuki, Rachel E., Skariah, Gemini, Fernandez, Daniel, and Lingyin Li

Subjects

*ANCIENT history, *DINUCLEOTIDES, *HUMAN phenotype, *INORGANIC pyrophosphatase

Abstract

The metazoan innate immune second messenger 2030-cGAMP is present both inside and outside cells. However, only extracellular cGAMP can be negatively regulated by the extracellular hydrolase ENPP1. Here, we determine whether ENPP1's regulation of extracellular cGAMP is a ubiquitous mechanism of attenuating stimulator of interferon genes (STING) signaling. We identified ENPP1H362A, a point mutation that cannot degrade the 20-50 linkage in cGAMP while maintaining otherwise normal function. The selectivity of this histidine is conserved down to bacterial nucleotide pyrophosphatase/phosphodiesterase (NPP), allowing structural analysis and suggesting an unexplored ancient history of 20-50 cyclic dinucleotides. Enpp1H362A mice demonstrated that extracellular cGAMP is not responsible for the devastating phenotype in ENPP1-null humans and mice but is responsible for antiviral immunity and systemic inflammation. Our data define extracellular cGAMP as a pivotal STING activator, identify an evolutionarily critical role for ENPP1 in regulating inflammation, and suggest a therapeutic strategy for viral and inflammatory conditions by manipulating ENPP1 activity. [ABSTRACT FROM AUTHOR]

Published

2022

45. The Mineralization Regulator ANKH Mediates Cellular Efflux of ATP, Not Pyrophosphate.

Author

Szeri, Flora, Niaziorimi, Fatemeh, Donnelly, Sylvia, Fariha, Nishat, Tertyshnaia, Mariia, Patel, Drithi, Lundkvist, Stefan, and van de Wetering, Koen

Abstract

The plasma membrane protein ankylosis homologue (ANKH, mouse ortholog: Ank) prevents pathological mineralization of joints by controlling extracellular levels of the mineralization inhibitor pyrophosphate (PPi). It was long thought that ANKH acts by transporting PPi into the joints. We recently showed that when overproduced in HEK293 cells, ANKH mediates release of large amounts of nucleoside triphosphates (NTPs), predominantly ATP, into the culture medium. ATP is converted extracellularly into PPi and AMP by the ectoenzyme ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1). We could not rule out, however, that cells also release PPi directly via ANKH. We now addressed the question of whether PPi leaves cells via ANKH using HEK293 cells that completely lack ENPP1. Introduction of ANKH in these ENPP1‐deficient HEK293 cells resulted in robust cellular ATP release without the concomitant increase in extracellular PPi found in ENPP1‐proficient cells. Ank activity was previously shown to be responsible for about 75% of the PPi found in mouse bones. However, bones of Enpp1−/− mice contained <2.5% of the PPi found in bones of wild‐type mice, showing that Enpp1 activity is also a prerequisite for Ank‐dependent PPi incorporation into the mineralized bone matrix in vivo. Hence, ATP release precedes ENPP1‐mediated PPi formation. We find that ANKH also provides about 25% of plasma PPi, whereas we have previously shown that 60% to 70% of plasma PPi is derived from the NTPs extruded by the ABC transporter, ABCC6. Both transporters that keep plasma PPi at sufficient levels to prevent pathological calcification therefore do so by extruding NTPs rather than PPi itself. © 2022 American Society for Bone and Mineral Research (ASBMR). [ABSTRACT FROM AUTHOR]

Published

2022

46. Genetic Factors That Affect Asymmetric Mandibular Growth—A Systematic Review.

Author

Babczyńska, Alicja, Kawala, Beata, and Sarul, Michał

Subjects

*STOMATOGNATHIC system, *CELLULAR signal transduction, *FACIAL expression

Abstract

Facial asymmetry is a feature that occurs to a greater or lesser extent in the general population. As its severity is usually slight, facial asymmetry may not be noticeable to the patient. However, there are cases when severe facial asymmetry not only affects the facial aesthetics by distorting facial proportions, but also contributes to problems related to the function of the stomatognathic system. The nodal signalling pathway appears to be of particular importance in the process of mandibular asymmetry, as it affects not only structures formed from the first pharyngeal arch, but also other organs, such as the heart and lungs. Following the evaluation of the available literature, the inheritance of mandibular asymmetry is a very complex and multifactorial process, and the genes whose altered expression appears to be a more important potential aetiological factor for asymmetry include PITX2, ACTN3, ENPP1 and ESR1. This systematic review attempts to systematise the available literature concerning the impact of signalling pathway disruption, including the disruption of the nodal signalling pathway, on the development of mandibular asymmetry. [ABSTRACT FROM AUTHOR]

Published

2022

47. Hyperpigmentation in a Chinese family with autosomal dominant Cole disease.

Author

Li, Zhongtao, Wang, Lin, and Wang, Sheng

Subjects

*HYPERPIGMENTATION, *GENE families, *PALMOPLANTAR keratoderma, *POLYMERASE chain reaction, *MISSENSE mutation, *DIAGNOSIS

Abstract

Cole disease (OMIM 615522), caused by mutations in ENPP1, is a rare autosomal dominant or recessive genodermatosis characterized by guttate hypopigmentation and punctate palmoplantar keratoderma. To date, a few cases with autosomal recessive inheritance had been reported with hyperpigmentation. The aim of this case report was to investigate the molecular basis of individuals with hyperpigmentation, hypopigmentation and punctate keratoderma in a Chinese family. A Chinese pedigree of suspected Cole disease with hyperpigmentation was subjected to mutation detection in the ENPP1 gene. All exons of the ENPP1 gene and adjacent exon‐intron border sequences were amplified using polymerase chain reaction and directly sequenced. Three‐dimensional (3D) models of the wild‐type and mutated ENPP1 proteins were predicted by PyMOL viewer. Both of the proband and his affected father carried a heterozygous missense mutation p.C176R in ENPP1. In silico modelling of the ENPP1 wild‐type and ENPP1 with the p.C176R mutation showed the residue Arg‐176 disturbed the fold of the loop conformation. Based on clinical and genetic findings, a diagnosis of Cole disease was made. We identified a heterozygous mutation, p.C176R, in the ENPP1 gene in a Chinese family with Cole disease. This study clearly showed that hyperpigmentation could also occur in Cole disease in cases with autosomal dominant inheritance. Our data expand the phenotypic spectrum of ENPP1 mutations underlying Cole disease. [ABSTRACT FROM AUTHOR]

Published

2022

48. Levels of serum ecto‐nucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) predicts severity of abdominal aortic calcification in end‐stage renal disease patients receiving regular dialysis.

Author

Wu, Xiujuan, Di, Feng, Shen, Shuijuan, Wang, Shimin, Li, Qinghua, Dong, Zhichao, Guan, Jichao, He, Jianling, and Wang, Yu

Subjects

*CHRONIC kidney failure, *CALCIFICATION, *ARTERIAL calcification, *AORTA, *RECEIVER operating characteristic curves

Abstract

Objective: To investigate the correlation between serum ectonucleotide pyrophosphatase/phosphodiesterase‐1 (ENPP1) level and severity of abdominal vascular calcification in end‐stage renal disease (ESRD) patients receiving dialysis. Methods: A total of 124 patients were consecutively enrolled into the study in our local institution. Based on the Kidney Disease Improving Global Outcomes (KDIGO) guidelines and recommendations, abdomen lateral X‐ray was used to determine abdominal aortic calcification score (AACS) for each patient at enrollment. Patients were divided into three groups based on AACS: no or mild calcification group, moderate calcification group, and severe calcification group. The relationships between ENPP1 levels and AACS were assessed by Spearman analysis and the value of ENPP1 in predicting severity of abdominal aortic calcification was evaluated by receiver operating characteristic (ROC). Results: The level of ENPP1 in dialysis patients was (7.68 ± 1.67) ng/ml. There was no significant difference in serum ENPP1 level between peritoneal dialysis patients and hemodialysis patients (p > 0.05). The AACS of dialysis patients was negatively correlated with ENPP1 value (r = −0.70). Compared to no/mild calcification patients, the levels of serum ENPP1 in patients with moderate/severe calcification were decreased significantly (p < 0.01). The severity of vascular calcification was correlated with serum ENPP1 value, the severer the vascular calcification, the lower the serum ENPP1 level, and the difference was statistically significant (all p < 0.05). The area under ROC curve of ENPP1 was 0.90, the corresponding sensitivity was 0.86, and the specificity was 0.87. Conclusion: Levels of serum ENPP1 in non‐diabetic ESRD patients are negatively related to the severity of abdominal aortic vascular calcification. [ABSTRACT FROM AUTHOR]

Published

2022

49. A Reference Range for Plasma Levels of Inorganic Pyrophosphate in Children Using the ATP Sulfurylase Method.

Author

Bernhard, Eva, Nitschke, Yvonne, Khursigara, Gus, Sabbagh, Yves, Yongbao Wang, and Rutsch, Frank

Subjects

PYROPHOSPHATES, ARTERIAL calcification, GENDER differences (Sociology), CHILD patients, AGE groups, ADENOSINE triphosphate

Abstract

Purpose: Generalized arterial calcification of infancy, pseudoxanthoma elasticum, autosomal recessive hypophosphatemic rickets type 2, and hypophosphatasia are rare inherited disorders associated with altered plasma levels of inorganic pyrophosphate (PPi). In this study, we aimed to establish a reference range for plasma PPi in the pediatric population, which would be essential to support its use as a biomarker in children with mineralization disorders. Methods: Plasma samples were collected from 200 children aged 1 day to 18 years who underwent blood testing for medical conditions not affecting plasma PPi levels. PPi was measured in proband plasma utilizing a validated adenosine triphosphate (ATP) sulfurylase method. Results: The analytical sensitivity of the ATP sulfurylase assay consisted of 0.15 to 10 µM PPi. Inter- and intra-assay coefficients of variability on identical samples were below 10%. The standard range of PPi in the blood plasma of children and adolescents aged 0 to 18 years was calculated as 2.36 to 4.44 µM, with a median of 3.17 µM, with no difference between male and female probands. PPi plasma levels did not differ significantly in different pediatric age groups. Main Conclusions: Our results yielded no noteworthy discrepancy to the reported standard range of plasma PPi in adults (2-5 µM). We propose the described ATP sulfurylase method as a diagnostic tool to measure PPi levels in plasma as a biomarker in the pediatric population. [ABSTRACT FROM AUTHOR]

Published

2022

50. ENPP1 induces blood-brain barrier dysfunction and promotes brain metastasis formation in HER2-positive breast cancer.

Author

Santos L, Tomatis F, Ferreira HRS, Almeida SFF, Ciputra E, Sereno J, Almeida R, Teixeira P, Ribeiro AS, Moreira JN, Silva AP, Ferreira L, Abrunhosa AJ, and Gomes CM

Abstract

Background: Brain metastasis (BrM) is a devastating end-stage neurological complication that occurs in up to 50% of HER2+ breast cancer patients. Understanding how disseminating tumor cells manage to cross the blood-brain barrier (BBB) is essential for developing effective preventive strategies. We identified the ecto-nucleotidase ENPP1 as specifically enriched in the secretome of HER2+ brain metastatic cells, prompting us to explore its impact on BBB dysfunction and BrM formation., Methods: We used in vitro BBB and in vivo premetastatic mouse models to evaluate the effect of tumor-secreted ENPP1 on brain vascular permeability. BBB integrity was analyzed by real-time fluorescence imaging of 20 kDa Cy7.5-dextran extravasation and immunofluorescence staining of adherens and tight junction proteins. Pro-metastatic effects of ENPP1 were evaluated in an experimental brain metastatic model., Results: Systemically secreted ENPP1 from primary breast tumors impaired the integrity of BBB with loss of tight and adherens junction proteins early before the onset of BrM. Mechanistically, ENPP1 induced endothelial cell dysfunction by impairing insulin signaling and its downstream AKT/GSK3β/β-catenin pathway. Genetic ablation of ENPP1 from HER2+ brain metastatic cells prevented endothelial cell dysfunction and reduced metastatic burden while prolonging the overall and metastasis-free survival of mice. Furthermore, plasmatic ENPP1 levels correlate with brain metastatic burden and inversely with overall survival., Conclusions: We demonstrated that metastatic breast cancer cells exploit the ENPP1 signaling for cell transmigration across the BBB and brain colonization. Our data implicate ENPP1 as a potential biomarker for poor prognosis and early detection of BrM in HER2+ breast cancer., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Society for Neuro-Oncology.)

Published

2024