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11 results on '"Armero, William"'

1. The N-glycome regulates the endothelial-to-hematopoietic transition

Author

Kasper, Dionna M, Hintzen, Jared, Wu, Yinyu, Ghersi, Joey J, Mandl, Hanna K, Salinas, Kevin E, Armero, William, He, Zhiheng, Sheng, Ying, Xie, Yixuan, Heindel, Daniel W, Park, Eon Joo, Sessa, William C, Mahal, Lara K, Lebrilla, Carlito, Hirschi, Karen K, and Nicoli, Stefania

Subjects
Biological Sciences, Medicinal and Biomolecular Chemistry, Chemical Sciences, Hematology, Stem Cell Research, Regenerative Medicine, Genetics, Stem Cell Research - Nonembryonic - Non-Human, Aetiology, 2.1 Biological and endogenous factors, ADAM10 Protein, Animals, Animals, Genetically Modified, Cell Lineage, Cell Transdifferentiation, Endothelial Cells, Genes, Reporter, Glycomics, Glycoproteins, Glycosylation, Hematopoietic Stem Cells, Mannosyltransferases, MicroRNAs, Polysaccharides, Sialyltransferases, Zebrafish, beta-Galactoside alpha-2, 3-Sialyltransferase, General Science & Technology
Abstract

Definitive hematopoietic stem and progenitor cells (HSPCs) arise from the transdifferentiation of hemogenic endothelial cells (hemECs). The mechanisms of this endothelial-to-hematopoietic transition (EHT) are poorly understood. We show that microRNA-223 (miR-223)-mediated regulation of N-glycan biosynthesis in endothelial cells (ECs) regulates EHT. miR-223 is enriched in hemECs and in oligopotent nascent HSPCs. miR-223 restricts the EHT of lymphoid-myeloid lineages by suppressing the mannosyltransferase alg2 and sialyltransferase st3gal2, two enzymes involved in protein N-glycosylation. ECs that lack miR-223 showed a decrease of high mannose versus sialylated sugars on N-glycoproteins such as the metalloprotease Adam10. EC-specific expression of an N-glycan Adam10 mutant or of the N-glycoenzymes phenocopied miR-223 mutant defects. Thus, the N-glycome is an intrinsic regulator of EHT, serving as a key determinant of the hematopoietic fate.

Published
2020

2. MicroRNA-dependent regulation of biomechanical genes establishes tissue stiffness homeostasis.

Author

Moro, Albertomaria, Driscoll, Tristan P, Boraas, Liana C, Armero, William, Kasper, Dionna M, Baeyens, Nicolas, Jouy, Charlene, Mallikarjun, Venkatesh, Swift, Joe, Ahn, Sang Joon, Lee, Donghoon, Zhang, Jing, Gu, Mengting, Gerstein, Mark, Schwartz, Martin, and Nicoli, Stefania

Subjects
Cells, Cultured, Cell Line, Fibroblasts, Endothelial Cells, Animals, Mice, Inbred C57BL, Zebrafish, Humans, Extracellular Matrix Proteins, MicroRNAs, RNA, Messenger, 3' Untranslated Regions, Gene Expression Regulation, Homeostasis, Animal Fins, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology
Abstract

Vertebrate tissues exhibit mechanical homeostasis, showing stable stiffness and tension over time and recovery after changes in mechanical stress. However, the regulatory pathways that mediate these effects are unknown. A comprehensive identification of Argonaute 2-associated microRNAs and mRNAs in endothelial cells identified a network of 122 microRNA families that target 73 mRNAs encoding cytoskeletal, contractile, adhesive and extracellular matrix (CAM) proteins. The level of these microRNAs increased in cells plated on stiff versus soft substrates, consistent with homeostasis, and suppressed targets via microRNA recognition elements within the 3' untranslated regions of CAM mRNAs. Inhibition of DROSHA or Argonaute 2, or disruption of microRNA recognition elements within individual target mRNAs, such as connective tissue growth factor, induced hyper-adhesive, hyper-contractile phenotypes in endothelial and fibroblast cells in vitro, and increased tissue stiffness, contractility and extracellular matrix deposition in the zebrafish fin fold in vivo. Thus, a network of microRNAs buffers CAM expression to mediate tissue mechanical homeostasis.

Published
2019

3. PPIL4 is essential for brain angiogenesis and implicated in intracranial aneurysms in humans

Author

Barak, Tanyeri, Ristori, Emma, Ercan-Sencicek, A. Gulhan, Miyagishima, Danielle F., Nelson-Williams, Carol, Dong, Weilai, Jin, Sheng Chih, Prendergast, Andrew, Armero, William, Henegariu, Octavian, Erson-Omay, E. Zeynep, Harmancı, Akdes Serin, Guy, Mikhael, Gültekin, Batur, Kilic, Deniz, Rai, Devendra K., Goc, Nükte, Aguilera, Stephanie Marie, Gülez, Burcu, Altinok, Selin, Ozcan, Kent, Yarman, Yanki, Coskun, Süleyman, Sempou, Emily, Deniz, Engin, Hintzen, Jared, Cox, Andrew, Fomchenko, Elena, Jung, Su Woong, Ozturk, Ali Kemal, Louvi, Angeliki, Bilgüvar, Kaya, Connolly, Jr., E. Sander, Khokha, Mustafa K., Kahle, Kristopher T., Yasuno, Katsuhito, Lifton, Richard P., Mishra-Gorur, Ketu, Nicoli, Stefania, and Günel, Murat

Published
2021
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7. survey of pregnant patients' perspectives on the implementation of artificial intelligence in clinical care.

Author

Armero, William, Gray, Kathryn J, Fields, Kara G, Cole, Naida M, Bates, David W, and Kovacheva, Vesela P

Abstract

Objective To evaluate and understand pregnant patients' perspectives on the implementation of artificial intelligence (AI) in clinical care with a focus on opportunities to improve healthcare technologies and healthcare delivery. Materials and Methods We developed an anonymous survey and enrolled patients presenting to the labor and delivery unit at a tertiary care center September 2019–June 2020. We investigated the role and interplay of patient demographic factors, healthcare literacy, understanding of AI, comfort levels with various AI scenarios, and preferences for AI use in clinical care. Results Of the 349 parturients, 57.6% were between the ages of 25–34 years, 90.1% reported college or graduate education and 69.2% believed the benefits of AI use in clinical care outweighed the risks. Cluster analysis revealed 2 distinct groups: patients more comfortable with clinical AI use (Pro-AI) and those who preferred physician presence (AI-Cautious). Pro-AI patients had a higher degree of education, were more knowledgeable about AI use in their daily lives and saw AI use as a significant advancement in medicine. AI-Cautious patients reported a lack of human qualities and low trust in the technology as detriments to AI use. Discussion Patient trust and the preservation of the human physician-patient relationship are critical in moving forward with AI implementation in healthcare. Pregnant individuals are cautiously optimistic about AI use in their care. Conclusion Our findings provide insights into the status of AI use in perinatal care and provide a platform for driving patient-centered innovations. [ABSTRACT FROM AUTHOR]

Published
2023
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8. N-Glycome regulation limits the transdifferentiation of endothelial cells into hematopoietic stem cells

Author

Kasper, Dionna M., Wu, Yinyu, Mandl, Hanna K., Salinas, Kevin, Ghersi, Joey, Hintzen, Jared, Armero, William, He, Zhiheng, Heindel, Daniel W., Park, Eon Joo, Sessa, William C., Mahal, Lara K., Hirschi, Karen K., and Nicoli, Stefania

Abstract

Hematopoietic stem and progenitor cells (HSPCs) are required to establish and maintain the adult blood system in vertebrates. During development, hemogenic endothelial cells undergo an endothelial-to-hematopoietic transition (EHT) to generate HSPCs 1–4 . Growth factors and epigenetic changes can promote EHT 1,3,5 , but these mechanisms do not explain its tight spatiotemporal regulation during development. Here, we show that microRNA (miR) miR-223-mediated regulation of N-glycan biosynthesis intrinsically restrains EHT, representing the first pathway that prevents excessive HSPC production. We find that miR-223 is uniquely expressed in hemogenic endothelial cells undergoing EHT and in nascent HSPCs. Loss of miR-223 promotes the expansion of these cells in the zebrafish and mouse aorta-gonad-mesonephros (AGM), where EHT occurs 6–8 . miR-223 targets alg2 (α1,3/ α1,6 mannosyltransferase) and st3gal2 (α2,3 sialyltransferase) for repression in the AGM endothelium. These two enzymes are involved in the biosynthesis of N-glycans, a common co-translational modification 9,10 that influences several pathophysiological processes 11,12 , but has not yet been implicated in EHT. Using an N-glycosensor, we demonstrate that vascular N-glycosylation increases during EHT, and this process is disrupted upon loss of miR-223. Specifically, high-throughput glycome analysis revealed terminal α1,3 mannose and α2,3 sialic acid modifications of membrane proteins are altered upon loss of miR-223. Importantly, pharmacological manipulation targeting these N-glycan types in wild-type embryos phenocopies the loss of miR-223 and enhances EHT as well as HSPC production. Thus, the N-glycome plays a previously unappreciated role as an intrinsic negative regulator of EHT, with specific mannose and sialic acid modifications serving as key endothelial determinants of the hematopoietic fate.

Published
2019
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9. The N-Glycome regulates the endothelial-to-hematopoietic transition

Author

Kasper, Dionna M., primary, Hintzen, Jared, additional, Wu, Yinyu, additional, Ghersi, Joey J., additional, Mandl, Hanna K., additional, Salinas, Kevin E., additional, Armero, William, additional, He, Zhiheng, additional, Sheng, Ying, additional, Xie, Yixuan, additional, Heindel, Daniel W., additional, Park, Eon Joo, additional, Sessa, William C., additional, Mahal, Lara K., additional, Lebrilla, Carlito, additional, Hirschi, Karen K., additional, and Nicoli, Stefania, additional

Published
2019
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10. microRNA-dependent regulation of biomechanical genes establishes tissue stiffness homeostasis

Author

Moro, Albertomaria, primary, Discroll, Tristan, additional, Armero, William, additional, Boraas, Liana C., additional, Kasper, Dionna M., additional, Baeyens, Nicolas, additional, Jouy, Charlene, additional, Mallikarjun, Venkatesh, additional, Swift, Joe, additional, Ahn, Sang Joon, additional, Lee, Donghoon, additional, Zhang, Jing, additional, Gu, Mengting, additional, Gerstein, Mark, additional, Schwart, Martin, additional, and Nicoli, Stefania, additional

Published
2018
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11. PPIL4is essential for brain angiogenesis and implicated in intracranial aneurysms in humans

Author

Barak, Tanyeri, Ristori, Emma, Ercan-Sencicek, A. Gulhan, Miyagishima, Danielle F., Nelson-Williams, Carol, Dong, Weilai, Jin, Sheng Chih, Prendergast, Andrew, Armero, William, Henegariu, Octavian, Erson-Omay, E. Zeynep, Harmancı, Akdes Serin, Guy, Mikhael, Gültekin, Batur, Kilic, Deniz, Rai, Devendra K., Goc, Nükte, Aguilera, Stephanie Marie, Gülez, Burcu, Altinok, Selin, Ozcan, Kent, Yarman, Yanki, Coskun, Süleyman, Sempou, Emily, Deniz, Engin, Hintzen, Jared, Cox, Andrew, Fomchenko, Elena, Jung, Su Woong, Ozturk, Ali Kemal, Louvi, Angeliki, Bilgüvar, Kaya, Connolly, E. Sander, Khokha, Mustafa K., Kahle, Kristopher T., Yasuno, Katsuhito, Lifton, Richard P., Mishra-Gorur, Ketu, Nicoli, Stefania, and Günel, Murat

Abstract

Intracranial aneurysm (IA) rupture leads to subarachnoid hemorrhage, a sudden-onset disease that often causes death or severe disability. Although genome-wide association studies have identified common genetic variants that increase IA risk moderately, the contribution of variants with large effect remains poorly defined. Using whole-exome sequencing, we identified significant enrichment of rare, deleterious mutations in PPIL4, encoding peptidyl-prolyl cis-transisomerase-like 4, in both familial and index IA cases. Ppil4depletion in vertebrate models causes intracerebral hemorrhage, defects in cerebrovascular morphology and impaired Wnt signaling. Wild-type, but not IA-mutant, PPIL4 potentiates Wnt signaling by binding JMJD6, a known angiogenesis regulator and Wnt activator. These findings identify a novel PPIL4-dependent Wnt signaling mechanism involved in brain-specific angiogenesis and maintenance of cerebrovascular integrity and implicate PPIL4gene mutations in the pathogenesis of IA.

Published
2021
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