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1. Allogeneic Mesenchymal Stromal Cells Significantly Increase Type 1 Regulatory T Cells, Decrease Effector Th17 Cells, and Decrease Aneurysm Volume in a Dose-dependent Fashion in Patients With Small Abdominal Aortic Aneurysms: Results of the Phase I Aneurysm Repression With Mesenchymal Stromal Cells (the Arrest Trial)

Author

Humraaz Samra, Katherin Leckie, Leni Moldovan, Kristen Wanczyk, Lava Timsina, Mithun Sinha, Imran Khan Mohammed, Ravi Mylvaganam, Anush Motaganahalli, Paul Territo, Ashley Gutwein, Raghunandan Motaganahalli, and Michael P. Murphy

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701
Published
2023
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2. 3D Printing of Human Ossicle Models for the Biofabrication of Personalized Middle Ear Prostheses

Author

Jacob Dairaghi, Dan Rogozea, Rachel Cadle, Joseph Bustamante, Leni Moldovan, Horia I. Petrache, and Nicanor I. Moldovan

Subjects
personalized medicine, digital design, additive manufacturing, 3D bioprinting, ossicle, prosthesis, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The middle ear bones (‘ossicles’) may become severely damaged due to accidents or to diseases. In these situations, the most common current treatments include replacing them with cadaver-derived ossicles, using a metal (usually titanium) prosthesis, or introducing bridges made of biocompatible ceramics. Neither of these solutions is ideal, due to the difficulty in finding or producing shape-matching replacements. However, the advent of additive manufacturing applications to biomedical problems has created the possibility of 3D-printing anatomically correct, shape- and size-personalized ossicle prostheses. To demonstrate this concept, we generated and printed several models of ossicles, as solid, porous, or soft material structures. These models were first printed with a plottable calcium phosphate/hydroxyapatite paste by extrusion on a solid support or embedded in a Carbopol hydrogel bath, followed by temperature-induced hardening. We then also printed an ossicle model with this ceramic in a porous format, followed by loading and crosslinking an alginate hydrogel within the pores, which was validated by microCT imaging. Finally, ossicle models were printed using alginate as well as a cell-containing nanocellulose-based bioink, within the supporting hydrogel bath. In selected cases, the devised workflow and the printouts were tested for repeatability. In conclusion, we demonstrate that moving beyond simplistic geometric bridges to anatomically realistic constructs is possible by 3D printing with various biocompatible materials and hydrogels, thus opening the way towards the in vitro generation of personalized middle ear prostheses for implantation.

Published
2022
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4. Design and Implementation of Anatomically Inspired Mesenteric and Intestinal Vascular Patterns for Personalized 3D Bioprinting

Author

Rachel Cadle, Dan Rogozea, Leni Moldovan, and Nicanor I. Moldovan

Subjects
3D bioprinting, image analysis, vasculature, personalized, intestine, mesentery, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Recent progress in bioprinting has made possible the creation of complex 3D intestinal constructs, including vascularized villi. However, for their integration into functional units useful for experimentation or implantation, the next challenge is to endow them with a larger-scale, anatomically realistic vasculature. In general, the perfusion of bioprinted constructs has remained difficult, and the current solution is to provide them with mostly linear and simply branched channels. To address this limitation, here we demonstrated an image analysis-based workflow leading through computer-assisted design from anatomic images of rodent mesentery and colon to the actual printing of such patterns with paste and hydrogel bioinks. Moreover, we reverse-engineered the 2D intestinal image-derived designs into cylindrical objects, and 3D-printed them in a support hydrogel. These results open the path towards generation of more realistically vascularized tissue constructs for a variety of personalized medicine applications.

Published
2022
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5. A module of human peripheral blood mononuclear cell transcriptional network containing primitive and differentiation markers is related to specific cardiovascular health variables.

Author

Leni Moldovan, Mirela Anghelina, Taylor Kantor, Desiree Jones, Enass Ramadan, Yang Xiang, Kun Huang, Arunark Kolipaka, William Malarkey, Nima Ghasemzadeh, Peter J Mohler, Arshed Quyyumi, and Nicanor I Moldovan

Subjects
Medicine, Science
Abstract

Peripheral blood mononuclear cells (PBMCs), including rare circulating stem and progenitor cells (CSPCs), have important yet poorly understood roles in the maintenance and repair of blood vessels and perfused organs. Our hypothesis was that the identities and functions of CSPCs in cardiovascular health could be ascertained by analyzing the patterns of their co-expressed markers in unselected PBMC samples. Because gene microarrays had failed to detect many stem cell-associated genes, we performed quantitative real-time PCR to measure the expression of 45 primitive and tissue differentiation markers in PBMCs from healthy and hypertensive human subjects. We compared these expression levels to the subjects' demographic and cardiovascular risk factors, including vascular stiffness. The tested marker genes were expressed in all of samples and organized in hierarchical transcriptional network modules, constructed by a bottom-up approach. An index of gene expression in one of these modules (metagene), defined as the average standardized relative copy numbers of 15 pluripotency and cardiovascular differentiation markers, was negatively correlated (all p

Published
2014
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6. Macrophage colony-stimulating factor augments Tie2-expressing monocyte differentiation, angiogenic function, and recruitment in a mouse model of breast cancer.

Author

Mary A Forget, Jeffrey L Voorhees, Sara L Cole, Duaa Dakhlallah, Ivory L Patterson, Amy C Gross, Leni Moldovan, Xiaokui Mo, Randall Evans, Clay B Marsh, and Tim D Eubank

Subjects
Medicine, Science
Abstract

Reports demonstrate the role of M-CSF (CSF1) in tumor progression in mouse models as well as the prognostic value of macrophage numbers in breast cancer patients. Recently, a subset of CD14+ monocytes expressing the Tie2 receptor, once thought to be predominantly expressed on endothelial cells, has been characterized. We hypothesized that increased levels of CSF1 in breast tumors can regulate differentiation of Tie2- monocytes to a Tie2+ phenotype. We treated CD14+ human monocytes with CSF1 and found a significant increase in CD14+/Tie2+ positivity. To understand if CSF1-induced Tie2 expression on these cells improved their migratory ability, we pre-treated CD14+ monocytes with CSF1 and used Boyden chemotaxis chambers to observe enhanced response to angiopoietin-2 (ANG2), the chemotactic ligand for the Tie2 receptor. We found that CSF1 pre-treatment significantly augmented chemotaxis and that Tie2 receptor upregulation was responsible as siRNA targeting Tie2 receptor abrogated this effect. To understand any augmented angiogenic effect produced by treating these cells with CSF1, we cultured human umbilical vein endothelial cells (HUVECs) with conditioned supernatants from CSF1-pre-treated CD14+ monocytes for a tube formation assay. While supernatants from CSF1-pre-treated TEMs increased HUVEC branching, a neutralizing antibody against the CSF1R abrogated this activity, as did siRNA against the Tie2 receptor. To test our hypothesis in vivo, we treated PyMT tumor-bearing mice with CSF1 and observed an expansion in the TEM population relative to total F4/80+ cells, which resulted in increased angiogenesis. Investigation into the mechanism of Tie2 receptor upregulation on CD14+ monocytes by CSF1 revealed a synergistic contribution from the PI3 kinase and HIF pathways as the PI3 kinase inhibitor LY294002, as well as HIF-1α-deficient macrophages differentiated from the bone marrow of HIF-1αfl/fl/LysMcre mice, diminished CSF1-stimulated Tie2 receptor expression.

Published
2014
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7. Chronic restraint stress upregulates erythropoiesis through glucocorticoid stimulation.

Author

Jeffrey L Voorhees, Nicole D Powell, Leni Moldovan, Xiaokui Mo, Timothy D Eubank, and Clay B Marsh

Subjects
Medicine, Science
Abstract

In response to elevated glucocorticoid levels, erythroid progenitors rapidly expand to produce large numbers of young erythrocytes. Previous work demonstrates hematopoietic changes in rodents exposed to various physical and psychological stressors, however, the effects of chronic psychological stress on erythropoiesis has not be delineated. We employed laboratory, clinical and genomic analyses of a murine model of chronic restraint stress (RST) to examine the influence of psychological stress on erythropoiesis. Mice exposed to RST demonstrated markers of early erythroid expansion involving the glucocorticoid receptor. In addition, these RST-exposed mice had increased numbers of circulating reticulocytes and increased erythropoiesis in primary and secondary erythroid tissues. Mice also showed increases in erythroid progenitor populations and elevated expression of the erythroid transcription factor KLF1 in these cells. Together this work reports some of the first evidence of psychological stress affecting erythroid homeostasis through glucocorticoid stimulation.

Published
2013
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8. Rac-induced left ventricular dilation in thyroxin-treated ZmRacD transgenic mice: role of cardiomyocyte apoptosis and myocardial fibrosis.

Author

Mohammad T Elnakish, Mohamed D H Hassona, Mazin A Alhaj, Leni Moldovan, Paul M L Janssen, Mahmood Khan, and Hamdy H Hassanain

Subjects
Medicine, Science
Abstract

The pathways inducing the critical transition from compensated hypertrophy to cardiac dilation and failure remain poorly understood. The goal of our study is to determine the role of Rac-induced signaling in this transition process. Our previous results showed that Thyroxin (T4) treatment resulted in increased myocardial Rac expression in wild-type mice and a higher level of expression in Zea maize RacD (ZmRacD) transgenic mice. Our current results showed that T4 treatment induced physiologic cardiac hypertrophy in wild-type mice, as demonstrated by echocardiography and histopathology analyses. This was associated with significant increases in myocardial Rac-GTP, superoxide and ERK1/2 activities. Conversely, echocardiography and histopathology analyses showed that T4 treatment induced dilated cardiomyopathy along with compensatory cardiac hypertrophy in ZmRacD mice. These were linked with further increases in myocardial Rac-GTP, superoxide and ERK1/2 activities. Additionally, there were significant increases in caspase-8 expression and caspase-3 activity. However, there was a significant decrease in p38-MAPK activity. Interestingly, inhibition of myocardial Rac-GTP activity and superoxide generation with pravastatin and carvedilol, respectively, attenuated all functional, structural, and molecular changes associated with the T4-induced cardiomyopathy in ZmRacD mice except the compensatory cardiac hypertrophy. Taken together, T4-induced ZmRacD is a novel mouse model of dilated cardiomyopathy that shares many characteristics with the human disease phenotype. To our knowledge, this is the first study to show graded Rac-mediated O(2)·(-) results in cardiac phenotype shift in-vivo. Moreover, Rac-mediated O(2)·(-) generation, cardiomyocyte apoptosis, and myocardial fibrosis seem to play a pivotal role in the transition from cardiac hypertrophy to cardiac dilation and failure. Targeting Rac signaling could represent valuable therapeutic strategy not only in saving the failing myocardium but also to prevent this transition process.

Published
2012
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10. Contributors

Author

Ahmed Safwat Abouhashem, Aamir Ahmad, Shazia Ahmad, Saira R. Ali, Tyler Anderson, Daniele Avitabile, Asha Balakrishnan, Mumtaz Yaseen Balkhi, Bin Bao, Nasma Bastaki, Christophe Beclin, Soumaya Ben-Aicha, Andreas Bosio, Emily Bruch, George A. Calin, Yang Cao, Maurizio C. Capogrossi, Andrea Caporali, Derryn Xin Hui Chan, Yuk Cheung Chan, Pavithra L. Chavali, Sreenivas Chavali, Alex F. Chen, Xiaona Chen, Charles Cook, Harold Cremer, Catherine Czeisler, Duaa Dakhlallah, Amitava Das, Anne M. Delany, Dasa Dolezalova, Juan Domínguez-Bendala, Manar A. EI Naggar, Costanza Emanueli, Michael Ezzie, Sara T. Fathallah, Tiziana Franceschetti, Roberto Gambari, Subhadip Ghatak, Jonathan M. Gleadle, Le Luo Guan, Denis C. Guttridge, Patrick Edwin Gygli, Khawaja H. Haider, Aleš Hampl, Sen Han, Martin C. Harmsen, Yoshinori Hasegawa, Sara A. Hashish, Eric Hesse, John D. Houlé, Kazuki Inoue, Jared Jagdeo, Imran Khan, Mahmood Khan, Shirin Elizabeth Khorsandi, Dagmar Klein, Dejuan Kong, Guido Krenning, Praveen Kusumanchi, Yiwei Li, Zhigang Li, Suthat Liangpunsakul, Kenneth W. Liechty, Amanda Louiselle, Leina Lu, Alessandra Magenta, Nilusha Malmuthuge, Andrew Mamalis, Clay B. Marsh, Selina Möbus, Ganesh Mohan, Peter J. Mohler, Leni Moldovan, Paloma del C. Monroig, Marek Mraz, S. Patrick Nana-Sinkam, Colby R. Neumann, Stephen Niemiec, José Javier Otero, Durba Pal, Ricardo L. Pastori, Melissa G. Piper, Giulio Pompilio, Mirza Muhammed Fahd Qadir, Srinivas Ramsamy, Darling Rojas-Canales, Alessandra Rossini, Sashwati Roy, Yashika Rustagi, Alaa A. Salama, Mohamed Salama, Prabha Sampath, Fazlul H. Sarkar, Mitsuo Sato, Chandan K. Sen, David S. Shames, Amar Deep Sharma, Anjali Kumari Singh, Kanhaiya Singh, Mithun Sinha, Prashant Srivastava, Hao Sun, Yeqing Sun, Hidetoshi Tahara, Hanna Taipaleenmäki, Joanne Trgovich, Elise J. Tucker, Huating Wang, Jie-Mei Wang, Lijun Wang, Yijie Wang, Brandon Watson, Dan Xu, Junwang Xu, Yi Xuan, Dakai Yang, Zhihong Yang, Nouran Yonis, Marina E. Zambrotta, Carlos Zgheib, Ting Zhang, Baohong Zhao, Yu Zhao, and Liang Zhou

Published
2023

12. MicroRNASeq Target Analysis and Validation by Real-Time PCR in Abdominal Aortic Aneurysm

Author

Willa Sasso, Leni Moldovan, and Michael Murphy

Subjects
cardiovascular system, Ocean Engineering
Abstract

Background/ Objective: Abdominal aortic aneurysm (AAA) is an epigenetic event characterized by chronic inflammation and degeneration of the aortic wall leading to catastrophic rupture. Cigarette smoke exposure is the greatest environmental risk factor associated with AAA development. MicroRNAs (miRNA) regulate gene expression and may play a role in smoking-induced aortic inflammation. Epigenetic changes could include dysregulation of miRNA, causing post-transcriptional abnormalities pathogenic to AAA. Methods: miRNA was extracted from plasma of 24 AAA patients and 7 risk factor matched (RFM) patients and analyzed by RNA sequencing. We compared previous (PS) and current smokers (CS) within and between both patient cohorts. Differential expression of miRNAs was analyzed by ANOVA (p≤ 0.05). Potential targets of significant differentially expressed miRNAs were predicted using cross-analysis of TargetScan and miRanda databases. Results: Analysis revealed 7 significantly different miRNAs between AAA CS and AAA PS and 6 significantly different miRNAs between RFM CS and RFM PS. Of greatest significance, hsa-miR-223-3p was significantly downregulated as an effect of smoking cessation in AAA PS compared to AAA CS (p=0.000263), while also showing clinically relevant expression levels. Target genes of hsa-miR-223-3p include pro-inflammatory factors IL-6, TNFα, TGFβ, and MCP-1. Speculatively, as tissue levels of miR-223 tend to inversely correlate with plasma levels, we could hypothesize that the observed plasma upregulation of hsa-miR-223-3p in AAA CS contributes to the pro-inflammatory microenvironment of aortic tissue. Conclusion: Cigarette smoke contributes to epigenetic changes impacting factors of immune regulation or inflammation, eventually leading to disease states such as AAA. Inflammatory-related hsa-miR-223-3p is upregulated in AAA CS, suggesting its potential role in the disease course. Implications: Upregulation of hsa-miR-223-3p in AAA CS offers a link between disease state and the number one environmental factor attributed to AAA. This signature miRNA could serve as a biomarker for AAA or as a potential therapy target.

Published
2021

17. An Elastin Sensitized Murine Model of Abdominal Aortic Aneurysm

Author

Gregory G. Westin, Chang-Hyun Gil, Leni Moldovan, Steven J. Miller, Theresa Doiron, Lili Zhang, Michael Ingram, Katherin Leckie, Michael P. Murphy, and Justin R. King

Subjects
Pathology, medicine.medical_specialty, biology, business.industry, medicine.disease, Abdominal aortic aneurysm, Murine model, RC666-701, biology.protein, Medicine, Diseases of the circulatory (Cardiovascular) system, Surgery, business, Cardiology and Cardiovascular Medicine, Elastin
Published
2021

18. Mechanisms of ischemic skeletal muscle regeneration mediated by mechanically constrained human allogeneic mesenchymal stromal cells

Author

Michael Loke Oms, Steven S. Welc, Steven J. Miller, Theresa Doiron, Justin R. King, Michael P. Murphy, Katherin Leckie, Alex O’Connor, Chang-Hyun Gil, and Leni Moldovan

Subjects
medicine.anatomical_structure, Chemistry, Regeneration (biology), Mesenchymal stem cell, medicine, Skeletal muscle, Ocean Engineering, Cell biology
Abstract

Background and Hypothesis: Critical limb threatening ischemia (CLTI) is the end stage of peripheral arterial disease (PAD). CLTI presents a significant risk for lower extremity amputation, especially in diabetic patients with poor options for revascularization. Additionally, using a novel diabetic mouse model of CLTI, we have shown that IM injection of 3D cultured MSCs (spheroids) is more effective in promoting skeletal muscle regeneration of ischemic muscle than monolayer cultured MSC. We hypothesize that this result is due to the mechanical constrained nature of the MSC in spheroid form, which has been shown to alter the cellular phenotype. Alginate encapsulated cells are another form of mechanical confinement, and have additional benefits including resistance to immunological attack, making them a practical therapy for treatment of CLTI patients. Project Methods: In this work, cells were encapsulated in 2% alginate using a centrifugation method. Media from these cells along with others were analyzed for IL-10 and IL-33 using ELISA. Mouse tissue samples were stained with WGA-555 antibody and analyzed using a scanning microscope. Effects on tissue perfusion were measured with Laser Doppler Perfusion Imaging. At the time of this abstract, the media from encapsulated and naked MSCs is being used to culture myoblasts, looking at cell growth. Results: ELISA results did not show significant increases in IL-10 or IL-33 for encapsulated vs. non-encapsulated cells. LDPI has shown an increased perfusion rate for hindlimbs treated with encapsulated MSCs vs naked MSCs. Muscle fiber analysis is ongoing, but initial data appears promising. Conclusion and Potential Impact: This experiment provides a starting point for improving and expanding cell therapy for critical limb ischemia, potentially resulting in better outcomes for diabetic patients and preventing lower limb amputations. The encapsulation process also has value in other types of cell therapy, as it could protect cells from host defenses and increase dwell time.

Published
2020

19. Hypoxia-Inducible Factor alpha subunits regulate Tie2-expressing macrophages that influence tumor oxygen and perfusion in murine breast cancer

Author

Kayla J. Steinberger, Mary A. Forget, Andrey A. Bobko, Nicole E. Mihalik, Marieta Gencheva, Julie M. Roda, Sara L. Cole, Xiaokui Mo, E. Hannah Hoblitzell, Randall Evans, Amy C. Gross, Leni Moldovan, Clay B. Marsh, Valery V. Khramtsov, and Timothy D. Eubank

Subjects
Immunology, Immunology and Allergy, Article
Abstract

Tie2-expressing monocytes/macrophages (TEMs) are a distinct subset of proangiogenic monocytes selectively recruited to tumors in breast cancer. Because of the hypoxic nature of solid tumors, we investigated if oxygen, via hypoxia-inducible transcription factors HIF-1α and HIF-2α, regulates TEM function in the hypoxic tumor microenvironment. We orthotopically implanted PyMT breast tumor cells into the mammary fat pads of syngeneic LysMcre, HIF-1αfl/fl/LysMcre, or HIF-2αfl/fl/LysMcre mice and evaluated the tumor TEM population. There was no difference in the percentage of tumor macrophages among the mouse groups. In contrast, HIF-1αfl/fl/LysMcre mice had a significantly smaller percentage of tumor TEMs compared with control and HIF-2αfl/fl/LysMcre mice. Proangiogenic TEMs in macrophage HIF-2α–deficient tumors presented significantly more CD31+ microvessel density but exacerbated hypoxia and tissue necrosis. Reduced numbers of proangiogenic TEMs in macrophage HIF-1α–deficient tumors presented significantly less microvessel density but tumor vessels that were more functional as lectin injection revealed more perfusion, and functional electron paramagnetic resonance analysis revealed more oxygen in those tumors. Macrophage HIF-1α–deficient tumors also responded significantly to chemotherapy. These data introduce a previously undescribed and counterintuitive prohypoxia role for proangiogenic TEMs in breast cancer which is, in part, suppressed by HIF-2α.

Published
2020

20. Biofabrication of spheroids fusion-based tumor models: computational simulation of glucose effects

Author

Nathan W Browning, Leni Moldovan, S Alexander Jensen, David J Bustamante, Elijah J Basile, Brady M Hildreth, Nicanor I. Moldovan, and Horia I. Petrache

Subjects
0206 medical engineering, Cell, Biomedical Engineering, Bioengineering, 02 engineering and technology, Biochemistry, Biomaterials, Computational simulation, Tissue engineering, Neoplasms, Spheroids, Cellular, medicine, Tumor Microenvironment, Humans, Computer Simulation, Fusion, Tumor microenvironment, Chemistry, Spheroid, Bioprinting, General Medicine, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, In vitro, Cell biology, medicine.anatomical_structure, Glucose, embryonic structures, 0210 nano-technology, Biotechnology, Biofabrication
Abstract

In vitro tumor models consisting of cell spheroids are increasingly used for mechanistic studies and pharmacological testing. However, unless vascularized, the availability of nutrients such as glucose to deeper layers of multicellular aggregates is limited. In addition, recent developments in cells-only biofabrication (e.g. ‘scaffold-free bioprinting’), allow the creation of more complex spheroid-based structures, further exposing the cells to nutrient deprivation within these constructs. To explore the impact of glucose availability on such tumor-like structures, we used the CompuCell3D platform for modeling of tumor spheroids. By monitoring the types of cells, fusing pairs geometry and the distance between spheroids centers of mass, we made novel heuristic observations on how binary- and multi-spheroid fusions are impacted by glucose availability. At limiting glucose concentrations mimicking hypoglycemia we noted an abrupt collapse of the tumor spheroids, unexpectedly amplified by the contact with normal cell spheroids. At higher glucose concentrations, we found an increased intermixing of cancerous cells, strong anti-phase oscillations between proliferating and quiescent tumor cells and a structural instability of fusing tumor spheroids, leading to their re-fragmentation. In a model of tumor microenvironment composed of normal cell spheroids fusing around a tumoral one, the competition for glucose lead to either the tumor’s disappearance, to a steady state, or to its expansion. Moreover, the invasion of this microenvironment by individual tumor cells was also strongly depended on the available glucose. In conclusion, we demonstrate the value of computational simulations for anticipating the properties of biofabricated tumor models, and in generating testable hypotheses regarding the relationship between cancer, nutrition and diabetes.

Published
2020

21. Labeling of endothelial cells with magnetic microbeads by angiophagy

Author

Mirela Anghelina, Jessica Thomas, Desiree Jones, Keith J. Gooch, Nicanor I. Moldovan, and Leni Moldovan

Subjects
0301 basic medicine, Cell, Bioengineering, 030204 cardiovascular system & hematology, Applied Microbiology and Biotechnology, Article, Umbilical vein, Flow cytometry, law.invention, Magnetics, 03 medical and health sciences, 0302 clinical medicine, Confocal microscopy, law, Human Umbilical Vein Endothelial Cells, medicine, Humans, Microscopy, Confocal, Staining and Labeling, medicine.diagnostic_test, biology, Chemistry, General Medicine, Flow Cytometry, Endocytosis, Microspheres, Trypsinization, 030104 developmental biology, medicine.anatomical_structure, Biophysics, biology.protein, Magnetic nanoparticles, Antibody, Intracellular, Biotechnology
Abstract

OBJECTIVES. Attachment of magnetic particles to cells is needed for a variety of applications but is not always possible or efficient. Simpler and more convenient methods are thus desirable. In this study, we tested the hypothesis that endothelial cells (EC) can be loaded with micron-size magnetic beads by the phagocytosis-like mechanism ‘angiophagy’. To this end, human umbilical vein EC (HUVEC) were incubated with magnetic beads conjugated or not (control) with an anti-VEGF receptor 2 antibody, either in suspension, or in culture followed by re-suspension using trypsinization. RESULTS. In all conditions tested, HUVEC incubation with beads induced their uptake by angiophagy, which was confirmed by (i) increased cell granularity assessed by flow cytometry, and (ii) the presence of an F-actin rich layer around many of the intracellular beads, visualized by confocal microscopy. For confluent cultures, the average number of beads per cell was 4.4 and 4.2, with and without the presence of the anti-VEGFR2 antibody, respectively. However, while the actively dividing cells took up 2.9 unconjugated beads on average, this number increased to 5.2 if binding was mediated by the antibody. Magnetic pulldown increased the cell density of beads-loaded cells in porous electrospun poly-capro-lactone scaffolds by a factor of 4.5 after 5 min, as compared to gravitational settling (p < 0.0001). CONCLUSION. We demonstrated that EC can be readily loaded by angiophagy with micron-sized beads while attached in monolayer culture, then dispersed in single-cell suspensions for pulldown in porous scaffolds and for other applications.

Published
2018

22. Enteral Arg-Gln Dipeptide Administration Increases Retinal Docosahexaenoic Acid and Neuroprotectin D1 in a Murine Model of Retinopathy of Prematurity

Author

Sergio Li Calzi, Bokkyoo Jun, Nicolas G. Bazan, Nilanjana Sengupta-Caballero, Lynn C Shaw, Mircea Ivan, Nan Li, Judith Quigley, Maria B. Grant, Michael E. Boulton, Leni Moldovan, Julia V. Busik, and Josef Neu

Subjects
0301 basic medicine, Male, medicine.medical_specialty, Docosahexaenoic Acids, oxygen-induced retinopathy, Administration, Oral, Retinal Neovascularization, Enteral administration, Retina, Neovascularization, 03 medical and health sciences, chemistry.chemical_compound, Mice, retinal proteomic analysis, Oral administration, Pregnancy, Internal medicine, medicine, Animals, Retinopathy of Prematurity, Chromatography, High Pressure Liquid, business.industry, Retinal Vessels, Retinal, Retinopathy of prematurity, Dipeptides, docosahexaenoic acid, medicine.disease, neutraceuticals, 3. Good health, Mice, Inbred C57BL, Oxygen, Disease Models, Animal, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, chemistry, Retinal Cell Biology, Animals, Newborn, Docosahexaenoic acid, arg-gln dipeptide, Female, medicine.symptom, business, Retinopathy
Abstract

Purpose Low levels of the long chain polyunsaturated fatty acid (LCPUFA) docosahexaenoic acid (DHA) have been implicated in retinopathy of prematurity (ROP). However, oral DHA suffers from poor palatability and is associated with increased bleeding in premature infants. We asked whether oral administration of the neutraceutical arginine-glutamine (Arg-Glu) could increase retinal DHA and improve outcomes in a mouse model of oxygen-induced retinopathy (OIR). Methods Postnatal day 7 (P7) pups were maintained at 75% oxygen for 5 days and then returned to room air on P12. Pups were gavaged twice daily with Arg-Gln or vehicle from P12 to P17 and eyes were harvested for analysis on P17. Vaso-obliteration and vascular density were assessed on retinal flat mounts and preretinal neovascularization was assessed on retinal cross sections. Retinas were used for measurement of DHA and 10,17S-docosatriene (neuroprotectin D1, NPD1), a key DHA-derived lipid, and for analysis by reverse-phase protein array (RPPA). Results With Arg-Gln treatment, retinal DHA and NPD1 levels were increased in OIR pups. Arg-Gln reduced preretinal neovascularization by 39 ± 6% (P < 0.05) relative to vehicle control. This was accompanied by a restoration of vascular density of the retina in the pups treated with Arg-Gln (73.0 ± 3.0%) compared to vehicle (53.1 ± 3.4%; P < 0.05). Arg-Gln dipeptide restored OIR-induced signaling changes toward normoxia and was associated with normalization of insulin-like growth factor receptor 1 signaling and reduction of apoptosis and an increase in anti-apoptosis proteins. Conclusions Arg-Gln may serve as a safer and easily tolerated nutraceutical agent for prevention or treatment of ROP.

Published
2018

23. An image analysis-based workflow for 3D bioprinting of anatomically realistic retinal vascular patterns

Author

Leni Moldovan, Dan Rogozea, Rachel Cadle, Nicanor I. Moldovan, and Patricia Parsons-Wingerter

Subjects
3D bioprinting, Cellular composition, business.industry, Computer science, 0206 medical engineering, Biomedical Engineering, Representation (systemics), 02 engineering and technology, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, Computer Science Applications, law.invention, Workflow, law, Computer vision, Artificial intelligence, 0210 nano-technology, business, Process (anatomy), Biotechnology
Abstract

There is an enduring need for vascularization of bioprinted constructs with vascular networks optimized for distribution of nutrient-containing fluids, both for in vitro applications and in vivo implantation. However, most of the efforts in this field were directed so far towards generation of simple linear channels, often lined with endothelial cells only, and thus lacking the anatomical details of real vascular networks. To start addressing this need, here we explored the possibility of using actual vascular patterns derived from human ocular fundus for instructing the 3D printing activity. In order to assign to these patterns the organ-specific topology, and eventually vessel branch-defined cellular composition, we describe the use of the branching analysis program VESGEN 2D for planning a workflow that links the primary vascular images with their 3D printing with bioinks. To this end, we show how to process flat vascular images and, for an even more realistic representation, how to retro-engineer concave retinal patterns from flat images and to print them in a supporting hydrogel. This work opens the possibility of bioprinting more anatomically realistic vascular networks, and thus to eventually improve the vascularization of living tissue-engineered constructs.

Published
2021

24. Comparison of biomaterial-dependent and -independent bioprinting methods for cardiovascular medicine

Author

Michael P. Murphy, Clifford M. Babbey, Leni Moldovan, and Nicanor I. Moldovan

Subjects
3D bioprinting, Engineering, business.industry, 0206 medical engineering, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Nanotechnology, 02 engineering and technology, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, law.invention, Biomaterials, Risk analysis (engineering), law, 0210 nano-technology, business, Biofabrication
Abstract

There is an increasing need and unique opportunities for the development of novel and more powerful tissue engineering methods, among which the 3D bioprinting is one of the most promising. However, after decades of incubation, ingenuous efforts and early success, biomaterial-dependent 3D bioprinting, although showing steady progress, is slow to deliver the expected clinical results. For this reason, alternative ‘scaffold-free’ 3D bioprinting methods are being developed in parallel at an accelerated pace. In this opinion paper we discuss comparatively the two approaches, with specific examples drawn from the cardiovascular field. Moving the emphasis away from competition, we show that the two platforms have similar goals but evolve in complementary technological niches. We conclude that the biomaterial-dependent bioprinting is better suited for tasks requiring faster, larger, anatomically-true, cell-homogenous and matrix-rich constructs, while the scaffold-free biofabrication is more adequate for cell-heterogeneous, matrix-poor, complex and smaller constructs, but requiring longer preparation time.

Published
2017

25. Transcriptional Networks in Single Perivascular Cells Sorted from Human Adipose Tissue Reveal a Hierarchy of Mesenchymal Stem Cells

Author

W. Reef Hardy, Chirayu P. Goswami, Leni Moldovan, Krishnalekha Datta, Bruno Péault, Mirko Corselli, Iain R. Murray, Keith L. March, Kenneth J. Livak, Dmitry O. Traktuev, and Nicanor I. Moldovan

Subjects
0301 basic medicine, Stromal cell, CD34, Biology, 03 medical and health sciences, Humans, Cell Lineage, Gene Regulatory Networks, Progenitor cell, Stem cell transplantation for articular cartilage repair, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Cell Biology, Aldehyde Dehydrogenase, Middle Aged, Stromal vascular fraction, Flow Cytometry, Cell biology, 030104 developmental biology, Adipose Tissue, Gene Expression Regulation, Immunology, Molecular Medicine, CD146, Female, Single-Cell Analysis, Stem cell, Pericytes, Developmental Biology
Abstract

Adipose tissue is a rich source of multipotent mesenchymal stem-like cells, located in the perivascular niche. Based on their surface markers, these have been assigned to two main categories: CD31−/CD45−/CD34+/CD146− cells (adventitial stromal/stem cells [ASCs]) and CD31−/CD45−/CD34−/CD146+ cells (pericytes [PCs]). These populations display heterogeneity of unknown significance. We hypothesized that aldehyde dehydrogenase (ALDH) activity, a functional marker of primitivity, could help to better define ASC and PC subclasses. To this end, the stromal vascular fraction from a human lipoaspirate was simultaneously stained with fluorescent antibodies to CD31, CD45, CD34, and CD146 antigens and the ALDH substrate Aldefluor, then sorted by fluorescence-activated cell sorting. Individual ASCs (n = 67) and PCs (n = 73) selected from the extremities of the ALDH-staining spectrum were transcriptionally profiled by Fluidigm single-cell quantitative polymerase chain reaction for a predefined set (n = 429) of marker genes. To these single-cell data, we applied differential expression and principal component and clustering analysis, as well as an original gene coexpression network reconstruction algorithm. Despite the stochasticity at the single-cell level, covariation of gene expression analysis yielded multiple network connectivity parameters suggesting that these perivascular progenitor cell subclasses possess the following order of maturity: (a) ALDHbrASC (most primitive); (b) ALDHdimASC; (c) ALDHbrPC; (d) ALDHdimPC (least primitive). This order was independently supported by specific combinations of class-specific expressed genes and further confirmed by the analysis of associated signaling pathways. In conclusion, single-cell transcriptional analysis of four populations isolated from fat by surface markers and enzyme activity suggests a developmental hierarchy among perivascular mesenchymal stem cells supported by markers and coexpression networks.

Published
2017

26. Bone Marrow–Derived Cell Recruitment to the Neurosensory Retina and Retinal Pigment Epithelial Cell Layer Following Subthreshold Retinal Phototherapy

Author

Maria B. Grant, Sergio Li Calzi, Nilanjana Sengupta, Leni Moldovan, David Kent, James M. Dominguez, Ramana S. Moorthy, Sergio Caballero, Eleni Beli, and Lynn Shaw

Subjects
0301 basic medicine, Male, Pathology, Adoptive cell transfer, Retinal Pigment Epithelium, Monocytes, chemistry.chemical_compound, Mice, 0302 clinical medicine, Cell Movement, Cells, Cultured, Heat-Shock Proteins, biology, medicine.diagnostic_test, Griffonia simplicifolia, micropulse, Hematopoietic Stem Cell Transplantation, Flow Cytometry, Adoptive Transfer, Immunohistochemistry, 3. Good health, medicine.anatomical_structure, Female, Laser Therapy, medicine.medical_specialty, Receptors, CXCR4, Green Fluorescent Proteins, Bone Marrow Cells, Mice, Transgenic, Retina, Flow cytometry, subthreshold, 03 medical and health sciences, medicine, Animals, Progenitor cell, macular edema, Choroid, Monocyte, Retinal, Phototherapy, biology.organism_classification, Molecular biology, eye diseases, Chemokine CXCL12, Mice, Inbred C57BL, 030104 developmental biology, chemistry, 030221 ophthalmology & optometry, Bone marrow, sense organs, Biomarkers
Abstract

Purpose We investigated whether subthreshold retinal phototherapy (SRPT) was associated with recruitment of bone marrow (BM)-derived cells to the neurosensory retina (NSR) and RPE layer. Methods GFP chimeric mice and wild-type (WT) mice were subjected to SRPT using a slit-lamp infrared laser. Duty cycles of 5%, 10%, 15%, and 20% (0.1 seconds, 250 mW, spot size 50 μm) with 30 applications were placed 50 to 100 μm from the optic disc. In adoptive transfer studies, GFP+ cells were given intravenously immediately after WT mice received SRPT. Immunohistochemistry was done for ionized calcium-binding adapter molecule-1 (IBA-1+), CD45, Griffonia simplicifolia lectin isolectin B4, GFP or cytokeratin). Expression of Ccl2, Il1b, Il6, Hspa1a, Hsp90aa1, Cryab, Hif1a, Cxcl12, and Cxcr4 mRNA and flow cytometry of the NSR and RPE-choroid were performed. Results Within 12 to 24 hours of SRPT, monocytes were detected in the NSR and RPE-choroid. Detection of reparative progenitors in the RPE occurred at 2 weeks using flow cytometry. Recruitment of GFP+ cells to the RPE layer occurred in a duty cycle-dependent manner in chimeric mice and in mice undergoing adoptive transfer. Hspa1a, Hsp90aa1, and Cryab mRNAs increased in the NSR at 2 hours post laser; Hif1a, Cxcl12, Hspa1a increased at 4 hours in the RPE-choroid; and Ccl2, Il1b, Ifng, and Il6 increased at 12 to 24 hours in the RPE-choroid. Conclusions SRPT induces monocyte recruitment to the RPE followed by hematopoietic progenitor cell homing at 2 weeks. Recruitment occurs in a duty cycle-dependent manner and potentially could contribute to the therapeutic efficacy of SRPT.

Published
2017

27. Progenitor cell combination normalizes retinal vascular development in the oxygen-induced retinopathy (OIR) model

Author

Lyne Racette, Michael E. Boulton, Mervin C. Yoder, Lynn C. Shaw, Seth D. Fortmann, William C. Shelley, Leni Moldovan, Sergio Li Calzi, Judith Quigley, Xiaoping Qi, and Maria B. Grant

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, Angiogenesis, Antigens, CD34, Retinal Neovascularization, Cell therapy, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Animals, Retinopathy of Prematurity, Progenitor cell, Retina, business.industry, Stem Cells, Oxygen Inhalation Therapy, Retinopathy of prematurity, Retinal, General Medicine, medicine.disease, eye diseases, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, chemistry, 030220 oncology & carcinogenesis, sense organs, business, Research Article, Adult stem cell, Retinopathy
Abstract

Retinopathy of prematurity (ROP) is a disorder of the developing retina of preterm infants. ROP can lead to blindness because of abnormal angiogenesis that is the result of suspended vascular development and vaso-obliteration leading to severe retinal stress and hypoxia. We tested the hypothesis that the use of the human progenitor cell combination, bone marrow–derived CD34(+) cells and vascular wall–derived endothelial colony–forming cells (ECFCs), would synergistically protect the developing retinal vasculature in a mouse model of ROP, called oxygen-induced retinopathy (OIR). CD34(+) cells alone, ECFCs alone, or the combination thereof were injected intravitreally at either P5 or P12 and pups were euthanized at P17. Retinas from OIR mice injected with ECFCs or the combined treatment revealed formation of the deep vascular plexus (DVP) while still in hyperoxia, with normal-appearing connections between the superficial vascular plexus (SVP) and the DVP. In addition, the combination of cells completely prevented aberrant retinal neovascularization and was more effective anatomically and functionally at rescuing the ischemia phenotype than either cell type alone. We show that the beneficial effects of the cell combination are the result of their ability to orchestrate an acceleration of vascular development and more rapid ensheathment of pericytes on the developing vessels. Lastly, our proteomic and transcriptomic data sets reveal pathways altered by the dual cell therapy, including many involved in neuroretinal maintenance, and principal component analysis (PCA) showed that cell therapy restored OIR retinas to a state that was closely associated with age-matched normal retinas. Together, these data herein support the use of dual cell therapy as a promising preventive treatment for the development of ROP in premature infants.

Published
2019

28. Of balls, inks and cages : hybrid biofabrication of 3D tissue analogs

Author

Leni Moldovan, Nicanor I. Moldovan, and Michael Raghunath

Subjects
Scaffolds, Scaffold, Computer science, business.industry, Materials Science (miscellaneous), Bioprinting, 3D printing, Nanotechnology, Review Article, Industrial and Manufacturing Engineering, 3d space, Tissue engineering, Scaffold-free, business, Biotechnology, Biofabrication, 610.28: Biomedizin, Biomedizinische Technik
Abstract

The overarching principle of three-dimensional (3D) bioprinting is the placing of cells or cell clusters in the 3D space to generate a cohesive tissue microarchitecture that comes close to in vivo characteristics. To achieve this goal, several technical solutions are available, generating considerable combinatorial bandwidth: (i) Support structures are generated first, and cells are seeded subsequently; (ii) alternatively, cells are delivered in a printing medium, so-called “bioink,” that contains them during the printing process and ensures shape fidelity of the generated structure; and (iii) a “scaffold-free” version of bioprinting, where only cells are used and the extracellular matrix is produced by the cells themselves, also recently entered a phase of accelerated development and successful applications. However, the scaffold-free approaches may still benefit from secondary incorporation of scaffolding materials, thus expanding their versatility. Reversibly, the bioink-based bioprinting could also be improved by adopting some of the principles and practices of scaffold-free biofabrication. Collectively, we anticipate that combinations of these complementary methods in a “hybrid” approach, rather than their development in separate technological niches, will largely increase their efficiency and applicability in tissue engineering.

Published
2019

29. Correction: Hypoxia-Inducible Factor α Subunits Regulate Tie2-Expressing Macrophages That Influence Tumor Oxygen and Perfusion in Murine Breast Cancer

Author

Timothy D. Eubank, Amy C. Gross, Sara L. Cole, Clay B. Marsh, E Hannah Hoblitzell, Marieta Gencheva, Julie M. Roda, Andrey A. Bobko, Leni Moldovan, Nicole E Mihalik, Randall Evans, Valery V. Khramtsov, Mary A. Forget, Kayla J. Steinberger, and Xiaokui Mo

Subjects
CD31, Immunology, Population, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Cell Line, Tumor, Basic Helix-Loop-Helix Transcription Factors, medicine, Animals, Immunology and Allergy, Macrophage, education, Transcription factor, education.field_of_study, biology, Chemistry, Macrophages, Mammary Neoplasms, Experimental, Hypoxia (medical), Hypoxia-Inducible Factor 1, alpha Subunit, medicine.disease, Receptor, TIE-2, Angiopoietin receptor, Neoplasm Proteins, Oxygen, Hypoxia-inducible factors, Cancer research, biology.protein, Female, medicine.symptom, 030215 immunology
Abstract

Tie2-expressing monocytes/macrophages (TEMs) are a distinct subset of proangiogenic monocytes selectively recruited to tumors in breast cancer. Because of the hypoxic nature of solid tumors, we investigated if oxygen, via hypoxia-inducible transcription factors HIF-1α and HIF-2α, regulates TEM function in the hypoxic tumor microenvironment. We orthotopically implanted PyMT breast tumor cells into the mammary fat pads of syngeneic LysMcre, HIF-1α fl/fl /LysMcre, or HIF-2α fl/fl /LysMcre mice and evaluated the tumor TEM population. There was no difference in the percentage of tumor macrophages among the mouse groups. In contrast, HIF-1α fl/fl /LysMcre mice had a significantly smaller percentage of tumor TEMs compared with control and HIF-2α fl/fl /LysMcre mice. Proangiogenic TEMs in macrophage HIF-2α-deficient tumors presented significantly more CD31+ microvessel density but exacerbated hypoxia and tissue necrosis. Reduced numbers of proangiogenic TEMs in macrophage HIF-1α-deficient tumors presented significantly less microvessel density but tumor vessels that were more functional as lectin injection revealed more perfusion, and functional electron paramagnetic resonance analysis revealed more oxygen in those tumors. Macrophage HIF-1α-deficient tumors also responded significantly to chemotherapy. These data introduce a previously undescribed and counterintuitive prohypoxia role for proangiogenic TEMs in breast cancer which is, in part, suppressed by HIF-2α.

Published
2020

30. Restructuring of the Gut Microbiome by Intermittent Fasting Prevents Retinopathy and Prolongs Survival in

Author

Fang-I Chu, Julia V. Busik, Qiuhong Li, Gavin Y. Oudit, Yaqian Duan, Steven D. Townsend, Caitlin Ryan, Ashay D. Bhatwadekar, Xiaoxin X. Wang, Ruli Gao, Hartmut Derendorf, Ram Prasad, Fletcher A. White, Raghavendra G. Mirmira, Emil G. Moldovan, Mervin C. Yoder, Moshe Levi, Daniel Morton, Leni Moldovan, Carmella Evans-Molina, Luisa Chan, Luciano Adorini, Michael E. Boulton, Maria B. Grant, Eleni Beli, Yuanqing Yan, and Cristiano P. Vieira

Subjects
0301 basic medicine, Male, Complications, Endocrinology, Diabetes and Metabolism, Gut flora, Receptors, G-Protein-Coupled, chemistry.chemical_compound, Mice, Feces, 0302 clinical medicine, Intestinal mucosa, Ganglia, Sensory, Intermittent fasting, Leukocytes, Medicine, Intestinal Mucosa, Receptor, biology, Microbiota, Fasting, G protein-coupled bile acid receptor, Mice, Inbred DBA, Goblet Cells, medicine.medical_specialty, Colon, Firmicutes, Retina, Bile Acids and Salts, 03 medical and health sciences, Verrucomicrobia, Diabetes mellitus, Internal medicine, Internal Medicine, Humans, Animals, Diabetic Retinopathy, business.industry, Bacteroidetes, Retinal Vessels, Retinal, medicine.disease, biology.organism_classification, Survival Analysis, Mice, Mutant Strains, Gastrointestinal Microbiome, 030104 developmental biology, Endocrinology, chemistry, Diabetes Mellitus, Type 2, Microvessels, Dysbiosis, Glycated hemoglobin, business, 030217 neurology & neurosurgery
Abstract

Intermittent fasting (IF) protects against the development of metabolic diseases and cancer, but whether it can prevent diabetic microvascular complications is not known. In db/db mice, we examined the impact of long-term IF on diabetic retinopathy (DR). Despite no change in glycated hemoglobin, db/db mice on the IF regimen displayed significantly longer survival and a reduction in DR end points, including acellular capillaries and leukocyte infiltration. We hypothesized that IF-mediated changes in the gut microbiota would produce beneficial metabolites and prevent the development of DR. Microbiome analysis revealed increased levels of Firmicutes and decreased Bacteroidetes and Verrucomicrobia. Compared with db/db mice on ad libitum feeding, changes in the microbiome of the db/db mice on IF were associated with increases in gut mucin, goblet cell number, villi length, and reductions in plasma peptidoglycan. Consistent with the known modulatory effects of Firmicutes on bile acid (BA) metabolism, measurement of BAs demonstrated a significant increase of tauroursodeoxycholate (TUDCA), a neuroprotective BA, in db/db on IF but not in db/db on AL feeding. TGR5, the TUDCA receptor, was found in the retinal primary ganglion cells. Expression of TGR5 did not change with IF or diabetes. However, IF reduced retinal TNF-α mRNA, which is a downstream target of TGR5 activation. Pharmacological activation of TGR5 using INT-767 prevented DR in a second diabetic mouse model. These findings support the concept that IF prevents DR by restructuring the microbiota toward species producing TUDCA and subsequent retinal protection by TGR5 activation.

Published
2018

31. Loss of Angiotensin-Converting Enzyme 2 Exacerbates Diabetic Retinopathy by Promoting Bone Marrow Dysfunction

Author

Tatiana E. Salazar, Ruchi J. Vyas, Sugata Hazra, Patricia Parsons-Wingerter, Yaqian Duan, Jude Al-Sabah, Troy A. Markel, Judith Quigley, Leni Moldovan, Eleni Beli, Michael E. Boulton, Dongni Feng, Sergio Li Calzi, Maria B. Grant, Alexander G. Obukhov, Gavin Y. Oudit, Matthew C. Murray, Kakarla V. Chalam, Marya Meroueh, Rehae C. Miller, and Thao Trinh

Subjects
0301 basic medicine, medicine.medical_specialty, CD34, 030204 cardiovascular system & hematology, Biology, Peptidyl-Dipeptidase A, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Bone Marrow, Internal medicine, Diabetes mellitus, medicine, Animals, Humans, Progenitor cell, Type 1 diabetes, Diabetic Retinopathy, Cell Biology, Diabetic retinopathy, medicine.disease, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Molecular Medicine, Bone marrow, Angiotensin-Converting Enzyme 2, Stem cell, hormones, hormone substitutes, and hormone antagonists, Developmental Biology, Retinopathy
Abstract

Angiotensin-converting enzyme 2 (ACE2) is the primary enzyme of the vasoprotective axis of the renin angiotensin system (RAS). We tested the hypothesis that loss of ACE2 would exacerbate diabetic retinopathy by promoting bone marrow dysfunction. ACE2–/y were crossed with Akita mice, a model of type 1 diabetes. When comparing the bone marrow of the ACE2–/y-Akita mice to that of Akita mice, we observed a reduction of both short-term and long-term repopulating hematopoietic stem cells, a shift of hematopoiesis toward myelopoiesis, and an impairment of lineage–c-kit+ hematopoietic stem/progenitor cell (HS/PC) migration and proliferation. Migratory and proliferative dysfunction of these cells was corrected by exposure to angiotensin-1-7 (Ang-1-7), the protective peptide generated by ACE2. Over the duration of diabetes examined, ACE2 deficiency led to progressive reduction in electrical responses assessed by electroretinography and to increases in neural infarcts observed by fundus photography. Compared with Akita mice, ACE2–/y-Akita at 9-months of diabetes showed an increased number of acellular capillaries indicative of more severe diabetic retinopathy. In diabetic and control human subjects, CD34+ cells, a key bone marrow HS/PC population, were assessed for changes in mRNA levels for MAS, the receptor for Ang-1-7. Levels were highest in CD34+ cells from diabetics without retinopathy. Higher serum Ang-1-7 levels predicted protection from development of retinopathy in diabetics. Treatment with Ang-1-7 or alamandine restored the impaired migration function of CD34+ cells from subjects with retinopathy. These data support that activation of the protective RAS within HS/PCs may represents a therapeutic strategy for prevention of diabetic retinopathy.

Published
2017

32. iPSC-Derived Vascular Cell Spheroids as Building Blocks for Scaffold-Free Biofabrication

Author

Chang-Hyun Gil, Nicanor I. Moldovan, Yang Lin, April Barnard, Maria B. Grant, Nutan Prasain, Leni Moldovan, and Mervin C. Yoder

Subjects
0301 basic medicine, Scaffold, Cell, Induced Pluripotent Stem Cells, Cell Culture Techniques, Nanotechnology, Applied Microbiology and Biotechnology, Green fluorescent protein, law.invention, Extracellular matrix, 03 medical and health sciences, Confocal microscopy, law, Spheroids, Cellular, medicine, Human Umbilical Vein Endothelial Cells, Humans, Progenitor cell, Tissue Engineering, Chemistry, Spheroid, General Medicine, 030104 developmental biology, medicine.anatomical_structure, embryonic structures, Biophysics, Molecular Medicine, Biofabrication, Biotechnology
Abstract

Recently a protocol was established to obtain large quantities of human induced pluripotent stem cells (iPSC)-derived endothelial progenitors, called endothelial colony forming cells (ECFC), and of candidate smooth-muscle forming cells (SMFC). Here, we tested their suitability for assembling in spheroids, and in larger 3D cell constructs. iPSC-derived ECFC and SMFC were labeled with tdTomato and eGFP, respectively. Spheroids were formed in ultra-low adhesive wells, and their dynamic proprieties were studied by time-lapse microscopy, or by confocal microscopy. Spheroids were also tested for fusion ability either in the wells, or assembled on the Regenova 3D bioprinter by lacing them in stainless steel micro-needles (the 'Kenzan' method). We found that both ECFC and SMFC formed spheroids in about 24 hr. Fluorescence monitoring indicated a continuous compaction of ECFC spheroids, but which stabilized in those prepared from SMFC. In mixed spheroids, the cell distribution changed continuously, with ECFC relocating to the core, and showing pre-vascular organization. All spheroids had ability of in-well fusion, but only those containing SMFC were robust enough to sustain assembling in tubular structures. In these constructs we found a layered distribution of alpha smooth muscle actin-positive cells and extracellular matrix deposition. In conclusion, iPSC-derived vascular cell spheroids represent a promising new cellular material for scaffold-free biofabrication.

Published
2017

33. Methodological challenges in utilizing mi <scp>RNA</scp> s as circulating biomarkers

Author

Clay B. Marsh, Melissa G. Piper, Kara Batte, Jon Wisler, Leni Moldovan, and Joanne Trgovcich

Subjects
Circulating mirnas, microRNA, Gene Expression Profiling, RNA Stability, Reviews, biomarkers, Cell Biology, Disease, Biology, Bioinformatics, Diagnostic tools, 3. Good health, Gene expression profiling, MicroRNAs, Circulating biomarkers, Circulating MicroRNA, circulating microRNAs, Animals, Humans, Molecular Medicine, profiling, real-time PCR, serum, plasma
Abstract

MicroRNAs (miRNAs) have emerged as important regulators in the post-transcriptional control of gene expression. The discovery of their presence not only in tissues but also in extratissular fluids, including blood, urine and cerebro-spinal fluid, together with their changes in expression in various pathological conditions, has implicated these extracellular miRNAs as informative biomarkers of disease. However, exploiting miRNAs in this capacity requires methodological rigour. Here, we report several key procedural aspects of miRNA isolation from plasma and serum, as exemplified by research in cardiovascular and pulmonary diseases. We also highlight the advantages and disadvantages of various profiling methods to determine the expression levels of plasma- and serum-derived miRNAs. Attention to such methodological details is critical, as circulating miRNAs become diagnostic tools for various human diseases.

Published
2014

35. Electroacupuncture Promotes Central Nervous System-Dependent Release of Mesenchymal Stem Cells

Author

Dmitri O. Traktuev, Phillip L. Johnson, Stephanie D. Fitz, Marcelo Febo, Mervin C. Yoder, Todd O. McKinley, Jared A. Smith, Robyn K. Fuchs, Matthew R. Richardson, Jamie Case, Lung-Ji Chang, Maria B. Grant, Jeffrey S. Thinschmidt, Emily K. Sims, Yaqian Duan, Huisheng Xie, Xinzhong Dong, Bruce McDavitt, Keith L. March, Youngsook Kim, Alicia L. Bertone, Minsu Kim, Leni Moldovan, Keith G. Avin, Luis M. Colon-Perez, Eleni Beli, John George, Zhanguo Gao, Matthew S. Ripsch, Susan P. McGorray, Sergio Li Calzi, Julie A. Mund, Stuart J. Warden, Fletcher A. White, Song Lai, Xiaolin Deng, Jingfeng Ma, Michael E. Boulton, Vaishnavi Jadhav, Anantha Shekhar, Mikhail G. Kolonin, Tatiana Salazar, Ashay D. Bhatwadekar, and Yuanqing Yan

Subjects
0301 basic medicine, Nervous system, Central Nervous System, medicine.medical_specialty, Sympathetic nervous system, Sensory Receptor Cells, Adipose Tissue, White, Central nervous system, Hypothalamus, Adipose tissue, White adipose tissue, Biology, Achilles Tendon, Article, 03 medical and health sciences, Mice, Adipose Tissue, Brown, Antigens, CD, Internal medicine, Forelimb, medicine, Adipocytes, Animals, Humans, Uncoupling Protein 1, Rupture, Macrophages, Mesenchymal stem cell, Mesenchymal Stem Cells, Cell Biology, Hindlimb, Interleukin-10, Rats, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Electroacupuncture, Hyperalgesia, Peripheral nervous system, Immunology, Molecular Medicine, Nerve Net, Acupuncture Points, Developmental Biology, Adult stem cell
Abstract

Electroacupuncture (EA) performed in rats and humans using limb acupuncture sites, LI-4 and LI-11, and GV-14 and GV-20 (humans) and Bai-hui (rats) increased functional connectivity between the anterior hypothalamus and the amygdala and mobilized mesenchymal stem cells (MSCs) into the systemic circulation. In human subjects, the source of the MSC was found to be primarily adipose tissue, whereas in rodents the tissue sources were considered more heterogeneous. Pharmacological disinhibition of rat hypothalamus enhanced sympathetic nervous system (SNS) activation and similarly resulted in a release of MSC into the circulation. EA-mediated SNS activation was further supported by browning of white adipose tissue in rats. EA treatment of rats undergoing partial rupture of the Achilles tendon resulted in reduced mechanical hyperalgesia, increased serum interleukin-10 levels and tendon remodeling, effects blocked in propranolol-treated rodents. To distinguish the afferent role of the peripheral nervous system, phosphoinositide-interacting regulator of transient receptor potential channels (Pirt)-GCaMP3 (genetically encoded calcium sensor) mice were treated with EA acupuncture points, ST-36 and LIV-3, and GV-14 and Bai-hui and resulted in a rapid activation of primary sensory neurons. EA activated sensory ganglia and SNS centers to mediate the release of MSC that can enhance tissue repair, increase anti-inflammatory cytokine production and provide pronounced analgesic relief.

Published
2016

36. Peritoneal macrophages are distinct from monocytes and adherent macrophages

Author

Krithika Selvarajan, Dmitry Litvinov, Aluganti N. Chandrakala, Leni Moldovan, and Sampath Parthasarathy

Subjects
Time Factors, medicine.medical_treatment, Receptor expression, Adipose tissue macrophages, Blotting, Western, Apoptosis, Biology, Real-Time Polymerase Chain Reaction, Monocytes, Mice, Cell Adhesion, medicine, Animals, Ascitic Fluid, Humans, Macrophage, Peritoneal Lavage, Interleukin 8, Scavenger receptor, Receptor, Cells, Cultured, Oligonucleotide Array Sequence Analysis, Receptors, Scavenger, Gene Expression Profiling, Macrophages, Growth factor, Cell biology, Mice, Inbred C57BL, Gene Expression Regulation, Macrophages, Peritoneal, Intercellular Signaling Peptides and Proteins, Cardiology and Cardiovascular Medicine
Abstract

Objective Peritoneal macrophages are used in many studies related to atherosclerosis. In situ , they are non-adherent and upon culturing, they adhere and function as scavengers of modified lipoproteins and dead apoptotic cells. They also produce growth factors, suggesting that they may provide life-supporting function as well. In this study, we propose that macrophage adherence plays a major role in their function and propose a novel concept that non-adherent macrophages are poor scavengers and may delay the process of apoptosis by secretion of growth factors. Methods and results We analyzed non-adherent and adherent macrophages for changes in receptor expression, growth factor production and function by microarrays, real-time PCR, and western blot analyses. Our results indicate that adherent macrophages have increased expression of scavenger receptors as compared to fresh peritoneal cells. While genes for many growth factors were expressed in both non-adherent and adherent macrophages, the milk fat globule-epidermal growth factor 8 protein (MFG-E8) that recognizes and takes up apoptotic cells was specifically enhanced in non-adherent cells. Furthermore, early apoptotic endothelial cells demonstrated signs of delayed apoptosis when incubated in the presence of peritoneal lavage fluid that was shown to contain MFG-E8. Functional arrays indicated that peritoneal non-adherent macrophages represent a class of macrophages, distinct from either blood monocytes or adherent cultured macrophages. Conclusions These results suggest that the adherence status of macrophages may play a major role in their functions.

Published
2011

37. Abstract 5207: HIF-1α regulates the Tie2 receptor on Tie2-expressing monocytes in PyMT breast tumors and augments angiogenic function and metastatic potential

Author

Xiaokui Mo, Andrey A. Bobko, Timothy D. Eubank, Randall Evans, Clay B. Marsh, Amy C. Gross, Valery Khramstov, Leni Moldovan, Kayla J. Steinberger, and Mary A. Forget

Subjects
Cancer Research, Oncology, biology, Chemistry, biology.protein, Cancer research, Tie2 Receptor, Angiopoietin receptor, Function (biology)
Abstract

Tissue oxygenation in the tumor microenvironment serves as a significant parameter in tumor pathophysiology. In fact, normalization of tumor oxygen is associated with inhibition of tumor growth and metastatic capacity. Irregular tumor vessels produced during tumor angiogenesis have low blood perfusion; thus, oxygen transport is decreased in tumors. Tie2-expressing monocytes (TEMs) are a distinct subset of proangiogenic monocytes selectively recruited to tumors in breast cancer patients. Due to the hypoxic nature of the tumor microenvironment, we investigated if oxygen regulates the trafficking of these cells into tumors or if oxygen regulates monocyte differentiation into TEMs once inside the tumor proper. To understand the differentiation of F4/80+/Tie2- cells to Tie2-positivity, we orthotopically implanted PyMT breast tumor cells containing particulate lithium octa-n-butoxy-naphthalocyanine (LiNcBuO) into the mammary fat pads of LysM-Cre control and HIF-1αfl/fl/LysM-Cre mice and evaluated tissue oxygenation by electron paramagnetic resonance (EPR), TEM infiltration, tumor angiogenesis, and metastatic potential. Longitudinal monitoring of physiologic oxygen in tumors using EPR demonstrates the significant role of oxygen-driven TEM regulation in tumor angiogenesis and progression. Citation Format: Kayla J. Steinberger, Mary Forget, Xiaokui Mo, Randall Evans, Amy Gross, Leni Moldovan, Andrey Bobko, Valery Khramstov, Clay B. Marsh, Timothy D. Eubank. HIF-1α regulates the Tie2 receptor on Tie2-expressing monocytes in PyMT breast tumors and augments angiogenic function and metastatic potential [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5207.

Published
2018

38. Regulation of Adult Hematopoietic Stem Cells Fate for Enhanced Tissue-specific Repair

Author

Nilanjana, Sengupta, Sergio, Caballero, Sean M, Sullivan, Lung-Ji, Chang, Aqeela, Afzal, Sergio, Li Calzi, Jennifer L, Kielczewski, Sabrina, Prabarakan, E Ann, Ellis, Leni, Moldovan, Nicanor I, Moldovan, Michael E, Boulton, Maria B, Grant, Edward W, Scott, and Jeffrey R, Harris

Subjects
cis-trans-Isomerases, Retinal degeneration, Cellular differentiation, Genetic Vectors, Retinal Pigment Epithelium, Biology, Polymerase Chain Reaction, Viral vector, Mice, 03 medical and health sciences, 0302 clinical medicine, Microscopy, Electron, Transmission, Drug Discovery, Electroretinography, Genetics, medicine, Animals, Humans, Eye Proteins, Molecular Biology, Cells, Cultured, Oligonucleotide Array Sequence Analysis, 030304 developmental biology, Pharmacology, 0303 health sciences, Retinal pigment epithelium, Lentivirus, Retinal Degeneration, Cell Differentiation, Original Articles, Hematopoietic Stem Cells, medicine.disease, Immunohistochemistry, Corrigenda, Molecular biology, Photoreceptor outer segment, eye diseases, Cell biology, Mice, Inbred C57BL, Haematopoiesis, medicine.anatomical_structure, RPE65, Molecular Medicine, Female, sense organs, Stem cell, Carrier Proteins, 030217 neurology & neurosurgery
Abstract

The ability to control the differentiation of adult hematopoietic stem cells (HSCs) would promote development of new cell-based therapies to treat multiple degenerative diseases. Systemic injection of NaIO(3) was used to ablate the retinal pigment epithelial (RPE) layer in C57Bl6 mice and initiate neural retinal degeneration. HSCs infected ex vivo with lentiviral vector expressing the RPE-specific gene RPE65 restored a functional RPE layer, with typical RPE phenotype including coexpression of another RPE-specific marker, CRALBP, and photoreceptor outer segment phagocytosis. Retinal degeneration was prevented and visual function, as measured by electroretinography (ERG), was restored to levels similar to that found in normal animals. None of the controls (no HSCs, HSCs alone and HSCs infected with lentiviral vector expressing LacZ) showed these effects. In vitro gene array studies demonstrated that infection of HSC with RPE65 increased adenylate cyclase mRNA. In vitro exposure of HSCs to a pharmacological agonist of adenylate cyclase also led to in vitro differentiation of HSCs to RPE-like cells expressing pigment granules and the RPE-specific marker, CRALBP. Our data confirm that expression of the cell-specific gene RPE65 promoted fate determination of HSCs toward RPE for targeted tissue repair, and did so in part by activation of adenylate cyclase signaling pathways. Expression by HSCs of single genes unique to a differentiated cell may represent a novel experimental paradigm to influence HSC plasticity, force selective differentiation, and ultimately lead to identification of pharmacological alternatives to viral gene delivery.

Published
2009

39. Adeno-Associated Virus Overexpression of Angiotensin-Converting Enzyme-2 Reverses Diabetic Retinopathy in Type 1 Diabetes in Mice

Author

Qiuhong Li, Leni Moldovan, Ping Hu, Maria B. Grant, Gavin Y. Oudit, Amrisha Verma, James M. Dominguez, and Sergio Caballero

Subjects
0301 basic medicine, medicine.medical_specialty, Peptidyl-Dipeptidase A, Pathology and Forensic Medicine, Diabetes Mellitus, Experimental, 03 medical and health sciences, Mice, 0302 clinical medicine, Diabetes mellitus, Internal medicine, Renin–angiotensin system, medicine, Animals, Type 1 diabetes, Diabetic Retinopathy, business.industry, Leukostasis, Regular Article, Diabetic retinopathy, Genetic Therapy, Dependovirus, medicine.disease, Streptozotocin, Immunohistochemistry, Vasoprotective, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, Diabetes Mellitus, Type 1, Angiotensin-converting enzyme 2, Angiotensin-Converting Enzyme 2, business, 030217 neurology & neurosurgery, medicine.drug
Abstract

Angiotensin-converting enzyme (ACE)-2 is the primary enzyme of the vasoprotective axis of the renin angiotensin system that regulates the classic renin angiotensin system axis. We aimed to determine whether local retinal overexpression of adenoassociated virus (AAV)–ACE2 prevents or reverses diabetic retinopathy. Green fluorescent protein ( GFP )–chimeric mice were generated to distinguish resident (retinal) from infiltrating bone marrow–derived inflammatory cells and were made diabetic using streptozotocin injections. Retinal digestion using trypsin was performed and acellular capillaries enumerated. Capillary occlusion by GFP + cells was used to measure leukostasis. Overexpression of ACE2 prevented (prevention cohort: untreated diabetic, 11.3 ± 1.4; ACE2 diabetic, 6.4 ± 0.9 per mm 2 ) and partially reversed (reversal cohort: untreated diabetic, 15.7 ± 1.9; ACE2 diabetic, 6.5 ± 1.2 per mm 2 ) the diabetes-associated increase of acellular capillaries and the increase of infiltrating inflammatory cells into the retina (F4/80 + ) (prevention cohort: untreated diabetic, 24.2 ± 6.7; ACE2 diabetic, 2.5 ± 1.6 per mm 2 ; reversal cohort: untreated diabetic, 56.8 ± 5.2; ACE2 diabetic, 5.6 ± 2.3 per mm 2 ). In both study cohorts, intracapillary bone marrow–derived cells, indicative of leukostasis, were only observed in diabetic animals receiving control AAV injections. These results indicate that diabetic retinopathy, and possibly other diabetic microvascular complications, can be prevented and reversed by locally restoring the balance between the classic and vasoprotective renin angiotensin system.

Published
2015

40. Actin grips: circular actin-rich cytoskeletal structures that mediate the wrapping of polymeric microfibers by endothelial cells

Author

Raghu Machiraju, Nicanor I. Moldovan, John J. Lannutti, Desiree Jones, Jessica Thomas, Mirela Anghelina, Thierry Pécot, Leni Moldovan, Sara L. Cole, Ruipeng Xue, DoYoung Park, Department of Internal Medicine [Colombus], Ohio State University [Columbus] (OSU), Department of Computer Science and Engineering [Colombus], Space-timE RePresentation, Imaging and cellular dynamics of molecular COmplexes (SERPICO), Inria Rennes – Bretagne Atlantique, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria), Department of Materials Science and Engineering [Colombus], Department of Biomedical Engineering [Colombus], and Campus Microscopy & Imaging Facility [Colombus] (CMIF)

Subjects
Cell type, Materials science, Polymers, Polyesters, Biophysics, Bioengineering, Nanotechnology, Biocompatible Materials, Article, law.invention, Biomaterials, Focal adhesion, Mice, Tissue engineering, Phagocytosis, Confocal microscopy, law, Stress Fibers, Human Umbilical Vein Endothelial Cells, Animals, Humans, [SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/Biomaterials, Cytoskeleton, Intermediate filament, Actin, Microscopy, Confocal, Tissue Engineering, Cell Membrane, Endothelial Cells, Cell Differentiation, Actin cytoskeleton, Actins, Mice, Inbred C57BL, Actin Cytoskeleton, Mechanics of Materials, Ceramics and Composites, [SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing
Abstract

International audience; Interaction of endothelial-lineage cells with three-dimensional substrates was much less studied than that with flat culture surfaces. We investigated the in vitro attachment of both mature endothelial cells (ECs) and of less differentiated EC colony-forming cells to poly-ε-capro-lactone (PCL) fibers with diameters in 5-20 μm range ('scaffold microfibers', SMFs). We found that notwithstanding the poor intrinsic adhesiveness to PCL, both cell types completely wrapped the SMFs after long-term cultivation, thus attaining a cylindrical morphology. In this system, both EC types grew vigorously for more than a week and became increasingly more differentiated, as shown by multiplexed gene expression. Three-dimensional reconstructions from multiphoton confocal microscopy images using custom software showed that the filamentous (F) actin bundles took a conspicuous ring-like organization around the SMFs. Unlike the classical F-actin-containing stress fibers, these rings were not associated with either focal adhesions or intermediate filaments. We also demonstrated that plasma membrane boundaries adjacent to these circular cytoskeletal structures were tightly yet dynamically apposed to the SMFs, for which reason we suggest to call them 'actin grips'. In conclusion, we describe a particular form of F-actin assembly with relevance for cytoskeletal organization in response to biomaterials, for endothelial-specific cell behavior in vitro and in vivo, and for tissue engineering.

Published
2015

41. Circulating MicroRNAs as Biomarkers

Author

Clay B. Marsh, S. Patrick Nana-Sinkam, Yijie Wang, Melissa G. Piper, Tyler B. Anderson, Duaa Dakhlallah, Charles H. Cook, Joanne Trgovich, Peter J. Mohler, Leni Moldovan, and Michael E. Ezzie

Subjects
Circulating mirnas, Circulating MicroRNA, Tissue remodeling, Mirna expression, microRNA, Immunology, Interstitial lung disease, medicine, Disease, Biology, medicine.disease, Bioinformatics, Microvesicles
Abstract

During the two last decades, the profiling of miRNAs as biomarkers or prognostic factors in disease has become increasingly popular, as changes in tissue miRNA expression appear to manifest in the circulation. The ability to profile circulating miRNAs provides a noninvasive tool for investigating disease-specific miRNAs as novel biomarkers for diagnosis, prognosis, and therapeutic response in the blood. This chapter discusses circulating miRNAs, found in plasma, serum, and a host of other body fluids, as biomarkers and, possibly, as critical regulators of tissue remodeling and repair.

Published
2015

42. Contributors

Author

Aamir Ahmad, Mir Farshid Alemdehy, Tyler Anderson, Hamdy Awad, Asha Balakrishnan, Mumtaz Yaseen Balkhi, Laure Bally-Cuif, Jaideep Banerjee, Bin Bao, Christopher Taylor Barry, Christophe Beclin, Detlev Boison, Andreas Bosio, Maria Luisa Brandi, Melissa Brown, George A. Calin, Yang Cao, Maurizio C. Capogrossi, Andrea Caporali, Christian Carulli, Yuk Cheung Chan, Pavithra L. Chavali, Sreenivas Chavali, Alex F. Chen, Xiaona Chen, Charles Cook, Marion Coolen, Harold Cremer, Catherine Czeisler, Duaa Dakhlallah, Amitava Das, Anne M. Delany, Dasa Dolezalova, Juan Domínguez-Bendala, Costanza Emanueli, Stefan J. Erkeland, Michael Ezzie, Pasquale Fasanaro, Ariana Foinquinos, Tiziana Franceschetti, Roberto Gambari, Shazia Ahmad, Subhadip Ghatak, Le Luo Guan, Denis C. Guttridge, Patrick Edwin Gygli, Khawaja H. Haider, Aleš Hampl, Martin C. Harmsen, Yoshinori Hasegawa, Robert Hindges, Myron Hinsdale, John D. Houlé, Lynsey Howard, Derryn Xin Hui Chan, Shunsuke Ichi, Massimo Innocenti, Jared Jagdeo, Dominique A. Kagele, Mahmood Khan, Dagmar Klein, Tatsuya Kobayashi, Dejuan Kong, Guido Krenning, Yiwei Li, Kenneth W. Liechty, Thomas Lisse, Lin Liu, Pamela Lloyd, Leina Lu, Theresa A. Lusardi, Ettore Luzi, Armando Macera, Alessandra Magenta, Nicola Antonio Maiorano, Obaid Malik, Andrew Mamalis, Barbara Mania-Farnell, Clay B. Marsh, C. Shekhar Mayanil, David McLone, Selina Möbus, Peter J. Mohler, Leni Moldovan, Paloma del C. Monroig, Marek Mraz, S. Patrick Nana-Sinkam, Laurent Nguyen, Ryan M. O’Connell, José Javier Otero, Durba Pal, Garyfallia Papaioannou, Ricardo L. Pastori, Melissa G. Piper, Sophie Pirotte, Giulio Pompilio, Srinivas Ramsamy, Josue Moura Romao, Alessandra Rossini, Sashwati Roy, Prabha Sampath, Fazlul H. Sarkar, Mitsuo Sato, Chandan K. Sen, David S. Shames, Saran Shantikumar, Amar Deep Sharma, M. Rizwan Siddiqui, Mithun Sinha, Hao Sun, Yeqing Sun, Hidetoshi Tahara, Thomas Thum, Esmerina Tili, Tadanori Tomita, Joanne Trgovich, Janika Viereck, Marie-Laure Volvert, Jie-Mei Wang, Lijun Wang, Huating Wang, Yijie Wang, Dan Xu, Junwang Xu, Dakai Yang, Marina E. Zambrotta, Carlos Zgheib, Yu Zhao, and Liang Zhou

Published
2015

43. Heat shock protects cardiac cells from doxorubicin-induced toxicity by activating p38 MAPK and phosphorylation of small heat shock protein 27

Author

C. D. Venkatakrishnan, Leni Moldovan, Arun K. Tewari, Arturo J. Cardounel, Jay L. Zweier, Govindasamy Ilangovan, and Periannan Kuppusamy

Subjects
Hyperthermia, Physiology, p38 mitogen-activated protein kinases, Molecular Sequence Data, HSP27 Heat-Shock Proteins, Apoptosis, macromolecular substances, Pharmacology, Biology, p38 Mitogen-Activated Protein Kinases, Antioxidants, Gene Expression Regulation, Enzymologic, Cell Line, Physiology (medical), Heat shock protein, medicine, Animals, Myocytes, Cardiac, Doxorubicin, Amino Acid Sequence, Phosphorylation, Heat-Shock Proteins, bcl-2-Associated X Protein, chemistry.chemical_classification, Reactive oxygen species, Antibiotics, Antineoplastic, medicine.disease, Molecular biology, Actins, Neoplasm Proteins, Rats, Gene Expression Regulation, Proto-Oncogene Proteins c-bcl-2, chemistry, Shock (circulatory), Mitogen-activated protein kinase, biology.protein, medicine.symptom, Reactive Oxygen Species, Cardiology and Cardiovascular Medicine, Heat-Shock Response, medicine.drug
Abstract

Doxorubicin (DOX) and its derivatives are used as chemotherapeutic drugs to treat cancer patients. However, production of DOX-mediated reactive oxygen species (ROS) by prolonged use of these drugs has been found to cause dilative cardiomyopathy and congestive heart failure. Thus various preventive modalities have been developed to avoid this side effect. We have found that the DOX-mediated oxidant-induced toxicity in cardiac cells could be minimized by hyperthermia-induced small heat shock protein 27 (HSP27); that is, this protein acts as an endogenous antioxidant against DOX-derived oxidants such as H2O2. Heat shock-induced HSP27 was found to act as an antiapoptotic protein (reducing ROS and Bax-to-Bcl2 ratio) against DOX, and its phosphorylated isoforms stabilized F-actin remodeling in DOX-treated cardiac cells and, hence, attenuated the toxicity. Protein kinase assays and proteomic analyses suggested that higher expression of HSP27 and its phosphorylation are responsible for the protection in heat-shocked cells. Two-dimensional gel electrophoresis showed six isoforms (nonphosphorylated and phosphorylated) of HSP27. Matrix-assisted laser desorption/ionization time of flight analyses showed α- and β-isoforms of HSP27, which are phosphorylated by various protein kinases. Ser15and Ser85phosphorylation of HSP27 by MAPK-assisted protein kinase 2 was found to be the key mechanism in reduction of apoptosis and facilitation of F-actin remodeling. The present study illustrates that hyperthermia protects cells from DOX-induced death through induction and phosphorylation of HSP27 and its antiapoptotic and actin-remodeling activities.

Published
2006

44. A subpopulation of peritoneal macrophages form capillary-like lumens and branching patterns in vitro

Author

Michael C. Ostrowski, Mirela Anghelina, N. L. Moldovan, Tahera Zabuawala, and Leni Moldovan

Subjects
Phagocytosis, Green Fluorescent Proteins, Neovascularization, Physiologic, Mice, Transgenic, Vacuole, Monocytes, intracelular vacuole, Extracellular matrix, Mice, functional adaptation, Laminin, endothelial, mental disorders, Animals, Promoter Regions, Genetic, Matrigel, biology, Cell Biology, Endocytosis, In vitro, Capillaries, Extracellular Matrix, Cell biology, Mice, Inbred C57BL, Drug Combinations, Phenotype, Biochemistry, monocytes/macrophages, Macrophages, Peritoneal, biology.protein, Phenomenin Review Series, Molecular Medicine, Proteoglycans, Collagen, human activities, Extracellular Matrix Degradation, lumen formation, Intracellular
Abstract

Objective: We have previously shown that monocytes/macrophages (MC/Mph) influence neovascularization by extracellular matrix degradation, and by direct incorporation into growing microvessels. To date, neither the phenotype of these cells, nor the stages of their capillary-like conversion were sufficiently characterized. Methods: We isolated mouse peritoneal Mph from transgenic mice expressing fluorescent proteins either ubiquitously, or specifically in the myelocytic lineage. These Mph were embedded in Matrigel which contained fluorescent protease substrates, exposed to an MCP-1 chemotactic gradient, and then examined by confocal microscopy after various intervals. Results: Within 3 hrs after gel embedding, we detected TIMP-1 and MMP-12 dependent proteolysis of the matrix surrounding Mph, mostly in the direction of high concentrations of MCP-1. After 2 days, Mph developed intracellular vacuoles containing degradation product. At 5 days these vacuoles were enlarged and/or fused to generate trans-cellular lumens in approximately 10% of cells or more (depending on animal’s genetic background). At this stage, Mph became tubular, and occasionally organized in three-dimensional structures resembling branched microvessels. Conclusion: Isolated mouse peritoneal Mph penetrate Matrigel and form tunnels via a metalloprotease-driven proteolysis and phagocytosis. Following a morphological adjustment driven by occurrence, enlargement and/or fusion process of intracellular vacuoles, similar to that described in bona fide endothelium, a subpopulation of these cells end up by lining a capillary-like lumen in vitro. Thus we show that adult Mph, not only the more primitive ‘endothelial progenitors’, have functional properties until now considered defining of the endothelial phenotype.

Published
2006

45. Monocytes/Macrophages Cooperate with Progenitor Cells during Neovascularization and Tissue Repair

Author

Nicanor I. Moldovan, Mirela Anghelina, Padma Krishnan, and Leni Moldovan

Subjects
Matrigel, Pathology, medicine.medical_specialty, Cellular differentiation, Regeneration (biology), Monocyte, Biology, Pathology and Forensic Medicine, Cell biology, Neovascularization, medicine.anatomical_structure, mental disorders, medicine, medicine.symptom, Stem cell, Progenitor cell, Fibroblast, human activities
Abstract

The potential of monocytes/macrophages (MC/Mph) to contribute to neovascularization has recently become a topic of intense scrutiny. Here, we characterized the behavior of MC/Mph in cellular infiltrates, with emphasis on their spatial organization and localization in newly formed microvessels. To this end, we studied MC/Mph migration and assembly in basic fibroblast growth factor-supplemented Matrigel plugs placed in transgenic Tie2-beta-galactosidase mice for up to 4 weeks. In these plugs, along with Nile Red-positive adipocytes, we found MC/Mph distributed in cell cords, also containing various mature and progenitor tissue cells; and functional Tie2-positive or -negative microvessels embedded in bundles of fibrillar collagen surrounded by F4/80-positive MC/Mph. At earlier stages of infiltration, we found tubular destruction of the matrix (tunnels) and MC/Mph-lined capillary-like structures occasionally containing erythrocytes, indicating their propensity for endothelial trans-differentiation. We also analyzed in vitro the MCP-1-induced chemotactic migration of fluorescently labeled peritoneal MC/Mph incorporated in Matrigel-containing fluorescent protease substrates. Many of these MC/Mph produced MMP-12- and TIMP-1-dependent tunnels coupled with acquisition of a lumen. In conclusion, long-term implantation of Matrigel plugs qualifies as a novel experimental model of tissue regeneration, in which neovascularization intimately couples with fibrosis and organogenesis and in which cells of MC/Mph phenotype play a key structural role.

Published
2006

46. Oxygen free radicals and redox biology of organelles

Author

Nicanor I. Moldovan and Leni Moldovan

Subjects
Cell physiology, Cytoplasm, Histology, Golgi Apparatus, Context (language use), Mitochondrion, Biology, Endoplasmic Reticulum, symbols.namesake, Cell Movement, Peroxisomes, Animals, Molecular Biology, Cell Nucleus, Endoplasmic reticulum, Cell Membrane, Cell Biology, Golgi apparatus, Peroxisome, Actin cytoskeleton, Cell Compartmentation, Mitochondria, Cell biology, Medical Laboratory Technology, Biochemistry, symbols, Reactive Oxygen Species
Abstract

The presence and supposed roles of reactive oxygen species (ROS) were reported in literature in a myriad of instances. However, the breadth and depth of their involvement in cellular physiology and pathology, as well as their relationship to the redox environment can only be guessed from specialized reports. Whatever their circumstances of formation or consequences, ROS seem to be conspicuous components of intracellular milieu. We sought to verify this assertion, by collecting the available evidence derived from the most recent publications in the biomedical field. Unlike other reviews with similar objectives, we centered our analysis on the subcellular compartments, namely on organelles, grouped according to their major functions. Thus, plasma membrane is a major source of ROS through NAD(P)H oxidases located on either side. Enzymes of the same class displaying low activity, as well as their components, are also present free in cytoplasm, regulating the actin cytoskeleton and cell motility. Mitochondria can be a major source of ROS, mainly in processes leading to apoptosis. The protein synthetic pathway (endoplasmic reticulum and Golgi apparatus), including the nucleus, as well as protein turnover, are all exquisitely sensitive to ROS-related redox conditions. The same applies to the degradation pathways represented by lysosomes and peroxisomes. Therefore, ROS cannot be perceived anymore as a mere harmful consequence of external factors, or byproducts of altered cellular metabolism. This may explain why the indiscriminate use of anti-oxidants did not produce the expected "beneficial" results in many medical applications attempted so far, underlying the need for a deeper apprehension of the biological roles of ROS, particularly in the context of the higher cellular order of organelles.

Published
2004

47. A Module of Human Peripheral Blood Mononuclear Cell Transcriptional Network Containing Primitive and Differentiation Markers Is Related to Specific Cardiovascular Health Variables

Author

Desiree Jones, Mirela Anghelina, Leni Moldovan, Taylor Kantor, Arunark Kolipaka, William B. Malarkey, Peter J. Mohler, Kun Huang, Nicanor I. Moldovan, Arshed A. Quyyumi, Yang Xiang, Enass Ramadan, and Nima Ghasemzadeh

Subjects
Male, Cellular differentiation, Gene regulatory network, lcsh:Medicine, Gene Expression, 030204 cardiovascular system & hematology, 0302 clinical medicine, Animal Cells, Gene expression, Molecular Cell Biology, Medicine and Health Sciences, Gene Regulatory Networks, lcsh:Science, Cells, Cultured, In Situ Hybridization, 2. Zero hunger, Aged, 80 and over, 0303 health sciences, Multidisciplinary, Stem Cells, Middle Aged, Immunohistochemistry, Clinical Laboratory Sciences, 3. Good health, Adult Stem Cells, Real-time polymerase chain reaction, Cardiovascular Diseases, Female, DNA microarray, Anatomy, Cellular Types, Network Analysis, Research Article, Adult, Computer and Information Sciences, Cell Potency, Cardiology, In situ hybridization, Biology, Real-Time Polymerase Chain Reaction, Peripheral blood mononuclear cell, 03 medical and health sciences, Young Adult, Diagnostic Medicine, Genetics, Humans, Progenitor cell, 030304 developmental biology, Aged, Regulatory Networks, lcsh:R, Biology and Life Sciences, Computational Biology, Cell Biology, Hematopoietic Stem Cells, Immunology, Cardiovascular Anatomy, Leukocytes, Mononuclear, lcsh:Q, Biomarkers, Developmental Biology
Abstract

Peripheral blood mononuclear cells (PBMCs), including rare circulating stem and progenitor cells (CSPCs), have important yet poorly understood roles in the maintenance and repair of blood vessels and perfused organs. Our hypothesis was that the identities and functions of CSPCs in cardiovascular health could be ascertained by analyzing the patterns of their co-expressed markers in unselected PBMC samples. Because gene microarrays had failed to detect many stem cell-associated genes, we performed quantitative real-time PCR to measure the expression of 45 primitive and tissue differentiation markers in PBMCs from healthy and hypertensive human subjects. We compared these expression levels to the subjects' demographic and cardiovascular risk factors, including vascular stiffness. The tested marker genes were expressed in all of samples and organized in hierarchical transcriptional network modules, constructed by a bottom-up approach. An index of gene expression in one of these modules (metagene), defined as the average standardized relative copy numbers of 15 pluripotency and cardiovascular differentiation markers, was negatively correlated (all p

Published
2014

48. Redox Changes of Cultured Endothelial Cells and Actin Dynamics

Author

Richard H. Sohn, Sahil A. Parikh, Pascal J. Goldschmidt-Clermont, Leni Moldovan, and Nicanor I. Moldovan

Subjects
Endothelium, Metalloporphyrins, Polymers, Physiology, Motility, macromolecular substances, Cell Line, Flow cytometry, Mice, Onium Compounds, Cell Movement, medicine, Animals, Enzyme Inhibitors, Aorta, Actin, Fluorescent Dyes, chemistry.chemical_classification, Reactive oxygen species, medicine.diagnostic_test, biology, Free Radical Scavengers, Flow Cytometry, biology.organism_classification, Actina, Actins, Cell biology, Endothelial stem cell, medicine.anatomical_structure, Biochemistry, chemistry, Cell culture, Endothelium, Vascular, Reactive Oxygen Species, Cardiology and Cardiovascular Medicine, Oxidation-Reduction
Abstract

Abstract —We studied the association between the production of reactive oxygen species, actin organization, and cellular motility. We have used an endothelial cell monolayer–wounding assay to demonstrate that the cells at the margin of the wound thus created produced significantly more free radicals than did cells in distant rows. The rate of incorporation of actin monomers into filaments was fastest at the wound margin, where heightened production of free radicals was detected. We have tested the effect of decreasing reactive oxygen species production on the migration of endothelial cells and on actin polymerization. The NADPH inhibitor diphenylene iodonium and the superoxide dismutase mimetic manganese (III) tetrakis(1-methyl-4-pyridyl)porphyrin (MnTMPyP) virtually abolished cytochalasin D–inhibitable actin monomer incorporation at the fast-growing barbed ends of filaments. Moreover, endothelial cell migration within the wound was significantly retarded in the presence of both diphenylene iodonium and MnTMPyP. We conclude that migration of endothelial cells in response to loss of confluence includes the intracellular production of reactive oxygen species, which contribute to the actin cytoskeleton reorganization required for the migratory behavior of endothelial cells.

Published
2000

49. The Actin Cytoskeleton Reorganization Induced by Rac1 Requires the Production of Superoxide

Author

Toren Finkel, Leni Moldovan, Pascal J. Goldschmidt-Clermont, Kaikobad Irani, and Nicanor I. Moldovan

Subjects
rac1 GTP-Binding Protein, Cell type, Metalloporphyrins, Physiology, Blotting, Western, Clinical Biochemistry, Arp2/3 complex, Transfection, Biochemistry, Culture Media, Serum-Free, Mice, chemistry.chemical_compound, Superoxides, Animals, Humans, Small GTPase, Molecular Biology, Aorta, Cells, Cultured, Cytoskeleton, Actin, Fluorescent Dyes, General Environmental Science, Microscopy, Confocal, NADPH oxidase, biology, Superoxide Dismutase, Superoxide, Actin cytoskeleton reorganization, Actin remodeling, Free Radical Scavengers, Cell Biology, Coronary Vessels, Actins, Recombinant Proteins, Acetylcysteine, Cell biology, Microscopy, Fluorescence, chemistry, biology.protein, General Earth and Planetary Sciences, Cell Surface Extensions, Endothelium, Vascular
Abstract

The small GTPase rac1 controls actin redistribution to membrane ruffles in fibroblasts and other cell types, as well as the activation of the NADPH oxidase in phagocytes. We explored the possibility that these two processes could be related. We used a replication-deficient adenoviral vector to overexpress the constitutively active form of rac1, racV12, in human and mouse aortic endothelial cells. We show here that, in addition to membrane ruffle formation, racV12 induced an increase in the total amount of F-actin within endothelial cells. Concurrently, racV12-overexpressing cells produced significantly higher amounts of free radicals, as detected by the fluorescent probe 5-(and-6)-chloromethyl-2',7'-dichloro-dihydrofluorescein diacetate, than cells infected with a control virus encoding the bacterial beta-galactosidase (Ad-betaGal). To assess the specific role of superoxide in racV12-induced actin reorganization, we co-expressed the human enzyme Cu,Zn-superoxide dismutase (SOD), by means of another adenoviral vector construct. Overexpressed SOD reduced the concentration of superoxide detected in Ad-racV12-transfected cells and reversed the effects of Ad-racV12 on the content of filamentous actin. MnTMPyP, an SOD mimetic, as well as the antioxidant N-acetyl cysteine, had similar effects, in that they reduced not only the free radicals production, but also ruffle formation and the concentration of F-actin within racV12-overexpressing endothelial cells. Our data support the hypothesis that superoxide is one of the important mediators acting downstream of rac1 on the pathway of actin cytoskeleton remodeling in endothelial cells.

Published
1999

50. Analyzing the circulating microRNAs in exosomes/extracellular vesicles from serum or plasma by qRT-PCR

Author

Melissa G. Piper, Yijie Wang, Kara Batte, Leni Moldovan, and Jon Wisler

Subjects
Messenger RNA, Endocytic cycle, RNA, Gene Expression, Biology, Exosomes, Flow Cytometry, Real-Time Polymerase Chain Reaction, Microvesicles, Microspheres, Article, Cell biology, Circulating MicroRNA, MicroRNAs, microRNA, Gene expression, Leukocytes, Mononuclear, Humans, RNA extraction, Annexin A5, Biomarkers, Software, DNA Primers
Abstract

Small extracellular vesicles are released from both healthy and disease cells to facilitate cellular communication. They have a wide variety of names including exosomes, microvesicles and microparticles. Depending on their size, very small extracellular vesicles originating from the endocytic pathway have been called exosomes and in some cases nanovesicles. Collectively, extracellular vesicles are important mediators of a wide variety of functions including immune cell development and homeostasis. Encapsulated in the extracellular vesicles are proteins and nucleic acids including mRNA and microRNA molecules. MicroRNAs are small, non-coding RNA molecules implicated in the post-transcriptional control of gene expression that have emerged as important regulatory molecules and are involved in disease pathogenesis including cancer. In some diseases, not only does the quantity and the subpopulations of extracellular vesicles change in the peripheral blood but also microRNAs. Here, we described the analysis of peripheral blood extracellular vesicles by flow cytometry and the RNA extraction from extracellular vesicles isolated from the plasma or serum to profile microRNA expression.

Published
2013

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