Your search keyword '"Mariggi, G."' showing total 11 results

1. Connecting the tips : a study on sprout fusion in angiogenesis

Author

Mariggi, G.

Subjects

570

Abstract

Angiogenesis is characterized by the sprouting of new vessels from pre-existing ones, with sprouts headed by a specialized endothelial cell (EC) known as the tip cell. The trailing ECs are referred to as stalk cells and help form the vessel proper and lumenize. Newly formed sprouts must come into contact with adjacent tip cells via filopodia to fuse and lumenize to form an additional functional vessel loop able to support blood flow. Here I describe the process of anastomosis in detailed spatial and temporal resolution. Interestingly tip cells do no necessarily form a new connection at their first contact but tend to have a “negotiation” phase whilst tip cells are in contact. This time delay is between 1 hour and 2.5 hours suggesting a possible genetic regulation of anastomosis. Interestingly cessation of filopodia activity is observed upon lumenization of the sprouts and not on the establishment of cell junctions. A gene important in fusion cells in Drosophila tracheal morphogenesis (the equivalent of EC tip cells) was investigated for its role in angiogenesis and anastomosis. Knockdown of heca, the homologue of the drosophila headcase gene, leads to precocious and ectopic connections between the Dorsal Lateral Anastomotic Vessels (DLAVs) over the neural tube in zebrafish embryos. Heca’s function does not appear dependent on the TGF/BMP pathway as in the trachea. Gain of function experiments at the whole organism and cell-autonomous level show that Heca overexpression leads to complete lumenization of some of the migrating intersegmental vessels by 26hpf. This suggests that heca’s possible involvement in instructing ECs to form a lumen or to sense the level of oxygenation/requirement to decrease activity may explain the opposing phenotypes observed. Taken together with observations about lumen formation with initiation of flow and the termination of filopodia activity, the data here presented could mean that lumenization is involved dampening EC activation.

Published

2012

2. Imaging Transient Blood Vessel Fusion Events by Correlative Volume Electron Microscopy

Author

Armer, H., Mariggi, G., Png, K., Genoud, C., Monteith, A., Bushby, A., Gerhardt, H., Collinson, L., Armer, H., Mariggi, G., Png, K., Genoud, C., Monteith, A., Bushby, A., Gerhardt, H., and Collinson, L.

Abstract

Extended abstract of a paper presented at Microscopy and Microanalysis 2010 in Portland, Oregon, USA, August 1 - August 5, 2010

Published

2017

3. Role of delta-like-4/Notch in the formation and wiring of the lymphatic network in zebrafish

Author

Geudens, I., Herpers, R., Hermans, K., Segura, I., Ruiz de Almodovar, C., Bussmann, J., De Smet, F., Vandevelde, W., Hogan, B.M., Siekmann, A., Claes, F., Moore, J., Pistocchi, A.S., Loges, S., Mazzone, M., Mariggi, G., Bruyere, F., Cotelli, F., Kerjaschki, D., Noel, A., Foidart, J.M., Gerhardt, H., Ny, A., Langenberg, T., Lawson, N., Duckers, H.J., Schulte-Merker, S., Carmeliet, P., Dewerchin, M., Geudens, I., Herpers, R., Hermans, K., Segura, I., Ruiz de Almodovar, C., Bussmann, J., De Smet, F., Vandevelde, W., Hogan, B.M., Siekmann, A., Claes, F., Moore, J., Pistocchi, A.S., Loges, S., Mazzone, M., Mariggi, G., Bruyere, F., Cotelli, F., Kerjaschki, D., Noel, A., Foidart, J.M., Gerhardt, H., Ny, A., Langenberg, T., Lawson, N., Duckers, H.J., Schulte-Merker, S., Carmeliet, P., and Dewerchin, M.

Abstract

OBJECTIVE: To study whether Notch signaling, which regulates cell fate decisions and vessel morphogenesis, controls lymphatic development. METHODS AND RESULTS: In zebrafish embryos, sprouts from the axial vein have lymphangiogenic potential because they give rise to the first lymphatics. Knockdown of delta-like-4 (Dll4) or its receptors Notch-1b or Notch-6 in zebrafish impaired lymphangiogenesis. Dll4/Notch silencing reduced the number of sprouts producing the string of parchordal lymphangioblasts; instead, sprouts connecting to the intersomitic vessels were formed. At a later phase, Notch silencing impaired navigation of lymphatic intersomitic vessels along their arterial templates. CONCLUSIONS: These studies imply critical roles for Notch signaling in the formation and wiring of the lymphatic network., OBJECTIVE: To study whether Notch signaling, which regulates cell fate decisions and vessel morphogenesis, controls lymphatic development. METHODS AND RESULTS: In zebrafish embryos, sprouts from the axial vein have lymphangiogenic potential because they give rise to the first lymphatics. Knockdown of delta-like-4 (Dll4) or its receptors Notch-1b or Notch-6 in zebrafish impaired lymphangiogenesis. Dll4/Notch silencing reduced the number of sprouts producing the string of parchordal lymphangioblasts; instead, sprouts connecting to the intersomitic vessels were formed. At a later phase, Notch silencing impaired navigation of lymphatic intersomitic vessels along their arterial templates. CONCLUSIONS: These studies imply critical roles for Notch signaling in the formation and wiring of the lymphatic network.

Published

2010

4. Imaging Transient Blood Vessel Fusion Events by Correlative Volume Electron Microscopy

Author

Armer, H, primary, Mariggi, G, additional, Png, K, additional, Genoud, C, additional, Monteith, A, additional, Bushby, A, additional, Gerhardt, H, additional, and Collinson, L, additional

Published

2010

5. Imaging Transient Blood Vessel Fusion Events by Correlative Volume Electron Microscopy

Author

Armer, H., Mariggi, G., Png, K., Genoud, C., Monteith, A., Bushby, A., Gerhardt, H., Collinson, L., Armer, H., Mariggi, G., Png, K., Genoud, C., Monteith, A., Bushby, A., Gerhardt, H., and Collinson, L.

Abstract

Extended abstract of a paper presented at Microscopy and Microanalysis 2010 in Portland, Oregon, USA, August 1 - August 5, 2010

6. Erratum: Community crystal gazing.

Author

Acharya A, Bingham K, Bradner J, Burke W, Charo RA, Cherry J, Choulika A, Coles T, Cook-Deegan R, Crook ST, Díaz E, Erickson B, Giddings LV, Giwa SE, Greenwood JC, Gulati V, Hall S, Harris J, Heywood J, Hill C, Levin J, Mangubat A, Maraganore J, Mariggi G, Mazur BJ, McGuire AL, Moll N, Moreno J, Naughton G, Nelsen L, Osbourn J, Perez D, Reed J, Schmidt E, Seyfert-Margolis V, Stoffels P, Thorball J, O'Toole T, Vainu I, van Deventer S, Zerhouni E, and Zohar D

Published

2016

7. Community crystal gazing.

Author

Acharya A, Bingham K, Bradner J, Burke W, Charo RA, Cherry J, Choulika A, Coles T, Cook-Deegan R, Crooke ST, Díaz E, Erickson B, Giddings LV, Giwa SE, Greenwood JC, Gulati V, Hall S, Harris J, Heywood J, Hill C, Levin J, Mangubat A, Maraganore J, Mariggi G, Mazur BJ, McGuire AL, Moll N, Moreno J, Naughton G, Nelsen L, Osbourn J, Perez D, Reed J, Schmidt E, Seyfert-Margolis V, Stoffels P, Thorball J, O'Toole T, Vainu I, van Deventer S, Zerhouni E, and Zohar D

Subjects

Humans, Private Sector economics, Biomedical Research economics, Biotechnology economics, Drug Industry economics, Research economics

Published

2016

8. Regulation of angiogenesis by a non-canonical Wnt-Flt1 pathway in myeloid cells.

Author

Stefater JA 3rd, Lewkowich I, Rao S, Mariggi G, Carpenter AC, Burr AR, Fan J, Ajima R, Molkentin JD, Williams BO, Wills-Karp M, Pollard JW, Yamaguchi T, Ferrara N, Gerhardt H, and Lang RA

Subjects

Animals, Blood Vessels growth & development, Endothelial Cells metabolism, Fibroblasts, Intracellular Signaling Peptides and Proteins genetics, Intracellular Signaling Peptides and Proteins metabolism, LDL-Receptor Related Proteins genetics, LDL-Receptor Related Proteins metabolism, Ligands, Low Density Lipoprotein Receptor-Related Protein-5, Mice, Receptors, G-Protein-Coupled, Vascular Endothelial Growth Factor A antagonists & inhibitors, Vascular Endothelial Growth Factor Receptor-1 deficiency, Vascular Endothelial Growth Factor Receptor-1 genetics, Wnt Proteins deficiency, Wnt Proteins genetics, Wnt-5a Protein, Myeloid Cells metabolism, Neovascularization, Physiologic physiology, Retina cytology, Signal Transduction, Vascular Endothelial Growth Factor Receptor-1 metabolism, Wnt Proteins metabolism

Abstract

Myeloid cells are a feature of most tissues. Here we show that during development, retinal myeloid cells (RMCs) produce Wnt ligands to regulate blood vessel branching. In the mouse retina, where angiogenesis occurs postnatally, somatic deletion in RMCs of the Wnt ligand transporter Wntless results in increased angiogenesis in the deeper layers. We also show that mutation of Wnt5a and Wnt11 results in increased angiogenesis and that these ligands elicit RMC responses via a non-canonical Wnt pathway. Using cultured myeloid-like cells and RMC somatic deletion of Flt1, we show that an effector of Wnt-dependent suppression of angiogenesis by RMCs is Flt1, a naturally occurring inhibitor of vascular endothelial growth factor (VEGF). These findings indicate that resident myeloid cells can use a non-canonical, Wnt-Flt1 pathway to suppress angiogenic branching.

Published

2011

9. Role of delta-like-4/Notch in the formation and wiring of the lymphatic network in zebrafish.

Author

Geudens I, Herpers R, Hermans K, Segura I, Ruiz de Almodovar C, Bussmann J, De Smet F, Vandevelde W, Hogan BM, Siekmann A, Claes F, Moore JC, Pistocchi AS, Loges S, Mazzone M, Mariggi G, Bruyère F, Cotelli F, Kerjaschki D, Noël A, Foidart JM, Gerhardt H, Ny A, Langenberg T, Lawson ND, Duckers HJ, Schulte-Merker S, Carmeliet P, and Dewerchin M

Subjects

Animals, Animals, Genetically Modified, Biomarkers metabolism, COS Cells, Cell Movement, Cell Proliferation, Chlorocebus aethiops, Coculture Techniques, Embryo, Nonmammalian metabolism, Endothelial Cells metabolism, Gene Expression Regulation, Developmental, Gene Knockdown Techniques, Gene Silencing, Humans, Intracellular Signaling Peptides and Proteins, Luminescent Proteins biosynthesis, Luminescent Proteins genetics, Lymphatic System embryology, Membrane Proteins genetics, RNA, Messenger metabolism, Receptors, Notch genetics, Thoracic Duct embryology, Thoracic Duct metabolism, Zebrafish embryology, Zebrafish genetics, Zebrafish Proteins genetics, Lymphangiogenesis genetics, Lymphatic System metabolism, Membrane Proteins metabolism, Receptors, Notch metabolism, Signal Transduction, Zebrafish metabolism, Zebrafish Proteins metabolism

Abstract

Objective: To study whether Notch signaling, which regulates cell fate decisions and vessel morphogenesis, controls lymphatic development., Methods and Results: In zebrafish embryos, sprouts from the axial vein have lymphangiogenic potential because they give rise to the first lymphatics. Knockdown of delta-like-4 (Dll4) or its receptors Notch-1b or Notch-6 in zebrafish impaired lymphangiogenesis. Dll4/Notch silencing reduced the number of sprouts producing the string of parchordal lymphangioblasts; instead, sprouts connecting to the intersomitic vessels were formed. At a later phase, Notch silencing impaired navigation of lymphatic intersomitic vessels along their arterial templates., Conclusions: These studies imply critical roles for Notch signaling in the formation and wiring of the lymphatic network.

Published

2010

10. Imaging transient blood vessel fusion events in zebrafish by correlative volume electron microscopy.

Author

Armer HE, Mariggi G, Png KM, Genoud C, Monteith AG, Bushby AJ, Gerhardt H, and Collinson LM

Subjects

Animals, Animals, Genetically Modified, Developmental Biology, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Ions, Microscopy, Electron, Transmission methods, Microscopy, Fluorescence methods, Models, Anatomic, Zebrafish, Blood Vessels metabolism, Blood Vessels pathology, Microscopy, Electron, Scanning methods

Abstract

The study of biological processes has become increasingly reliant on obtaining high-resolution spatial and temporal data through imaging techniques. As researchers demand molecular resolution of cellular events in the context of whole organisms, correlation of non-invasive live-organism imaging with electron microscopy in complex three-dimensional samples becomes critical. The developing blood vessels of vertebrates form a highly complex network which cannot be imaged at high resolution using traditional methods. Here we show that the point of fusion between growing blood vessels of transgenic zebrafish, identified in live confocal microscopy, can subsequently be traced through the structure of the organism using Focused Ion Beam/Scanning Electron Microscopy (FIB/SEM) and Serial Block Face/Scanning Electron Microscopy (SBF/SEM). The resulting data give unprecedented microanatomical detail of the zebrafish and, for the first time, allow visualization of the ultrastructure of a time-limited biological event within the context of a whole organism.

Published

2009

11. Tipping the balance: robustness of tip cell selection, migration and fusion in angiogenesis.

Author

Bentley K, Mariggi G, Gerhardt H, and Bates PA

Subjects

Astrocytes physiology, Cell Fusion, Cell Movement, Computer Simulation, Endothelial Cells, Pseudopodia physiology, Reproducibility of Results, Shear Strength, Vascular Endothelial Growth Factor A metabolism, Models, Cardiovascular, Neovascularization, Pathologic physiopathology, Neovascularization, Physiologic physiology, Systems Biology methods

Abstract

Vascular abnormalities contribute to many diseases such as cancer and diabetic retinopathy. In angiogenesis new blood vessels, headed by a migrating tip cell, sprout from pre-existing vessels in response to signals, e.g., vascular endothelial growth factor (VEGF). Tip cells meet and fuse (anastomosis) to form blood-flow supporting loops. Tip cell selection is achieved by Dll4-Notch mediated lateral inhibition resulting, under normal conditions, in an interleaved arrangement of tip and non-migrating stalk cells. Previously, we showed that the increased VEGF levels found in many diseases can cause the delayed negative feedback of lateral inhibition to produce abnormal oscillations of tip/stalk cell fates. Here we describe the development and implementation of a novel physics-based hierarchical agent model, tightly coupled to in vivo data, to explore the system dynamics as perpetual lateral inhibition combines with tip cell migration and fusion. We explore the tipping point between normal and abnormal sprouting as VEGF increases. A novel filopodia-adhesion driven migration mechanism is presented and validated against in vivo data. Due to the unique feature of ongoing lateral inhibition, 'stabilised' tip/stalk cell patterns show sensitivity to the formation of new cell-cell junctions during fusion: we predict cell fates can reverse. The fusing tip cells become inhibited and neighbouring stalk cells flip fate, recursively providing new tip cells. Junction size emerges as a key factor in establishing a stable tip/stalk pattern. Cell-cell junctions elongate as tip cells migrate, which is shown to provide positive feedback to lateral inhibition, causing it to be more susceptible to pathological oscillations. Importantly, down-regulation of the migratory pathway alone is shown to be sufficient to rescue the sprouting system from oscillation and restore stability. Thus we suggest the use of migration inhibitors as therapeutic agents for vascular normalisation in cancer.

Published

2009