Skip to menu Skip to content Skip to footer
Dr Emma Gordon
Dr

Emma Gordon

Email: 

Overview

Background

Dr Gordon’s research is focused on the formation and maintenance of the blood and lymphatic vascular systems. Vessels form complex branched networks that supply oxygen and nutrients to all body tissues. The signals controlling blood vessel expansion, identity and migration are all downstream of a single, common complex at the cell surface, yet exactly how this diverse range of functions is differentially regulated, depending on the physiological need, remains unknown.

The specific focus of Dr Gordon’s research is to determine the precise molecular signals that control cell adhesion within the vessel wall the surrounding environment. If the signals controlling cell adhesion become deregulated, normal vessel growth and function is lost. This contributes to the progression of a wide range of human diseases, including cancer growth and metastasis, diabetic eye disease and stroke. Dr Gordon aims to use novel biological models, biochemical assays and imaging techniques to better understand vessel biology, which will enable improved treatment of disease and aid in the development of vascularised, bioengineered organs.

Dr Gordon received her Bachelor of Science (2005) and PhD (2011) from The University of Adelaide, after which she undertook six years of postdoctoral studies at Yale University in the USA and Uppsala University in Sweden. With the support of an ARC DECRA Fellowship, Dr Gordon relocated to IMB in 2017 to establish her independent research career as an IMB Fellow. In 2019, she was appointed as Group Leader of the Vessel Dynamics Laboratory.

Availability

Dr Emma Gordon is:
Available for supervision
Media expert

Qualifications

  • Doctor of Philosophy, University of Adelaide

Works

Search Professor Emma Gordon’s works on UQ eSpace

27 works between 2008 and 2024

1 - 20 of 27 works

2024

Journal Article

Endothelial c-Src Mediates Neovascular Tuft Formation in Oxygen-Induced Retinopathy

Frampton, Emmanuelle, Som, Priyanka, Hill, Brittany, Yu, Alexander, Naval-Sanchez, Marina, Nefzger, Chistian M., Noordstra, Ivar, Gordon, Emma and Schimmel, Lilian (2024). Endothelial c-Src Mediates Neovascular Tuft Formation in Oxygen-Induced Retinopathy. The American Journal of Pathology. doi: 10.1016/j.ajpath.2024.09.003

Endothelial c-Src Mediates Neovascular Tuft Formation in Oxygen-Induced Retinopathy

2024

Journal Article

c-Src induced vascular malformations require localised matrix degradation at focal adhesions

Essebier, Patricia, Keyser, Mikaela, Yordanov, Teodor, Hill, Brittany, Yu, Alexander, Noordstra, Ivar, Yap, Alpha S., Stehbens, Samantha J., Lagendijk, Anne K., Schimmel, Lilian and Gordon, Emma J. (2024). c-Src induced vascular malformations require localised matrix degradation at focal adhesions. Journal of Cell Science, 137 (13) jcs262101. doi: 10.1242/jcs.262101

c-Src induced vascular malformations require localised matrix degradation at focal adhesions

2023

Journal Article

An E-cadherin-actin clutch translates the mechanical force of cortical flow for cell-cell contact to inhibit epithelial cell locomotion

Noordstra, Ivar, Hermoso, Mario Díez, Schimmel, Lilian, Bonfim-Melo, Alexis, Currin-Ross, Denni, Duong, Cao Nguyen, Kalappurakkal, Joseph Mathew, Morris, Richard G., Vestweber, Dietmar, Mayor, Satyajit, Gordon, Emma, Roca-Cusachs, Pere and Yap, Alpha S. (2023). An E-cadherin-actin clutch translates the mechanical force of cortical flow for cell-cell contact to inhibit epithelial cell locomotion. Developmental Cell, 58 (18), 1748-1763.e6. doi: 10.1016/j.devcel.2023.06.011

An E-cadherin-actin clutch translates the mechanical force of cortical flow for cell-cell contact to inhibit epithelial cell locomotion

2023

Journal Article

Macrophage ACE2 is necessary for SARS-CoV-2 replication and subsequent cytokine responses that restrict continued virion release

Labzin, Larisa I., Chew, Keng Yih, Eschke, Kathrin, Wang, Xiaohui, Esposito, Tyron, Stocks, Claudia J., Rae, James, Patrick, Ralph, Mostafavi, Helen, Hill, Brittany, Yordanov, Teodor E., Holley, Caroline L., Emming, Stefan, Fritzlar, Svenja, Mordant, Francesca L., Steinfort, Daniel P., Subbarao, Kanta, Nefzger, Christian M., Lagendijk, Anne K., Gordon, Emma J., Parton, Robert G., Short, Kirsty R., Londrigan, Sarah L. and Schroder, Kate (2023). Macrophage ACE2 is necessary for SARS-CoV-2 replication and subsequent cytokine responses that restrict continued virion release. Science Signaling, 16 (782) eabq1366, eabq1366. doi: 10.1126/scisignal.abq1366

Macrophage ACE2 is necessary for SARS-CoV-2 replication and subsequent cytokine responses that restrict continued virion release

2022

Journal Article

Tyrosine-protein kinase Yes controls endothelial junctional plasticity and barrier integrity by regulating VE-cadherin phosphorylation and endocytosis

Jin, Yi, Ding, Yindi, Richards, Mark, Kaakinen, Mika, Giese, Wolfgang, Baumann, Elisabeth, Szymborska, Anna, Rosa, André, Nordling, Sofia, Schimmel, Lilian, Akmeriç, Emir Bora, Pena, Andreia, Nwadozi, Emmanuel, Jamalpour, Maria, Holstein, Katrin, Sáinz-Jaspeado, Miguel, Bernabeu, Miguel O., Welsh, Michael, Gordon, Emma, Franco, Claudio A., Vestweber, Dietmar, Eklund, Lauri, Gerhardt, Holger and Claesson-Welsh, Lena (2022). Tyrosine-protein kinase Yes controls endothelial junctional plasticity and barrier integrity by regulating VE-cadherin phosphorylation and endocytosis. Nature Cardiovascular Research, 1 (12), 1156-1173+. doi: 10.1038/s44161-022-00172-z

Tyrosine-protein kinase Yes controls endothelial junctional plasticity and barrier integrity by regulating VE-cadherin phosphorylation and endocytosis

2021

Journal Article

Endothelial cells are not productively infected by SARS‐CoV‐2

Schimmel, Lilian, Chew, Keng Yih, Stocks, Claudia J., Yordanov, Teodor E., Essebier, Patricia, Kulasinghe, Arutha, Monkman, James, Santos Miggiolaro, Anna Flavia Ribeiro, Cooper, Caroline, Noronha, Lucia, Schroder, Kate, Lagendijk, Anne Karine, Labzin, Larisa I., Short, Kirsty R. and Gordon, Emma J. (2021). Endothelial cells are not productively infected by SARS‐CoV‐2. Clinical and Translational Immunology, 10 (10) e1350, e1350. doi: 10.1002/cti2.1350

Endothelial cells are not productively infected by SARS‐CoV‐2

2021

Journal Article

Endothelial junctional membrane protrusions serve as hotspots for neutrophil transmigration

Arts, Janine J. G., Mahlandt, Eike K., Grönloh, Max, Schimmel, Lilian, Noordstra, Ivar, Gordon, Emma, van Steen, Abraham C.I., Tol, Simon, Walzog, Barbara, van Rijssel, Jos, Nolte, Martijn A., Postma, Marten, Khuon, Satya, Heddleston, John M., Wait, Eric, Chew, Teng Leong, Winter, Mark, Montanez, Eloi, Goedhart, Joachim and van Buul, Jaap D. (2021). Endothelial junctional membrane protrusions serve as hotspots for neutrophil transmigration. eLife, 10 e66074. doi: 10.7554/elife.66074

Endothelial junctional membrane protrusions serve as hotspots for neutrophil transmigration

2021

Journal Article

Defective NET clearance contributes to sustained FXII activation in COVID-19-associated pulmonary thrombo-inflammation

Englert, Hanna, Rangaswamy, Chandini, Deppermann, Carsten, Sperhake, Jan-Peter, Krisp, Christoph, Schreier, Danny, Gordon, Emma, Konrath, Sandra, Haddad, Munif, Pula, Giordano, Mailer, Reiner K, Schlüter, Hartmut, Kluge, Stefan, Langer, Florian, Püschel, Klaus, Panousis, Kosta, Stavrou, Evi X, Maas, Coen, Renné, Thomas and Frye, Maike (2021). Defective NET clearance contributes to sustained FXII activation in COVID-19-associated pulmonary thrombo-inflammation. EBioMedicine, 67 103382, 103382. doi: 10.1016/j.ebiom.2021.103382

Defective NET clearance contributes to sustained FXII activation in COVID-19-associated pulmonary thrombo-inflammation

2021

Journal Article

Endothelial cell orientation and polarity are controlled by shear stress and VEGF through distinct signaling pathways

Vion, Anne-Clémence, Perovic, Tijana, Petit, Charlie, Hollfinger, Irene, Bartels-Klein, Eireen, Frampton, Emmanuelle, Gordon, Emma, Claesson-Welsh, Lena and Gerhardt, Holger (2021). Endothelial cell orientation and polarity are controlled by shear stress and VEGF through distinct signaling pathways. Frontiers in Physiology, 11 623769, 623769. doi: 10.3389/fphys.2020.623769

Endothelial cell orientation and polarity are controlled by shear stress and VEGF through distinct signaling pathways

2021

Journal Article

RIPK1 expression associates with inflammation in early atherosclerosis in humans and can be therapeutically silenced to reduce NF-κB activation and atherogenesis in mice

Karunakaran, Denuja, Nguyen, My-Anh, Geoffrion, Michele, Vreeken, Dianne, Lister, Zachary, Cheng, Henry S., Otte, Nicola, Essebier, Patricia, Wyatt, Hailey, Kandiah, Joshua W., Jung, Richard, Alenghat, Francis J., Mompeon, Ana, Lee, Richard, Pan, Calvin, Gordon, Emma, Rasheed, Adil, Lusis, Aldons J., Liu, Peter, Matic, Ljubica Perisic, Hedin, Ulf, Fish, Jason E., Guo, Liang, Kolodgie, Frank, Virmani, Renu, van Gils, Janine M. and Rayner, Katey J. (2021). RIPK1 expression associates with inflammation in early atherosclerosis in humans and can be therapeutically silenced to reduce NF-κB activation and atherogenesis in mice. Circulation, 143 (2) CIRCULATIONAHA.118.038379, 163-177. doi: 10.1161/CIRCULATIONAHA.118.038379

RIPK1 expression associates with inflammation in early atherosclerosis in humans and can be therapeutically silenced to reduce NF-κB activation and atherogenesis in mice

2020

Journal Article

The importance of mechanical forces for in vitro endothelial cell biology

Gordon, Emma, Schimmel, Lilian and Frye, Maike (2020). The importance of mechanical forces for in vitro endothelial cell biology. Frontiers in Physiology, 11 684, 684. doi: 10.3389/fphys.2020.00684

The importance of mechanical forces for in vitro endothelial cell biology

2020

Journal Article

MAFB modulates the maturation of lymphatic vascular networks in mice

Rondon‐Galeano, Maria, Skoczylas, Renae, Bower, Neil I., Simons, Cas, Gordon, Emma, Francois, Mathias, Koltowska, Katarzyna and Hogan, Benjamin M. (2020). MAFB modulates the maturation of lymphatic vascular networks in mice. Developmental Dynamics, 249 (10) dvdy.209, 1201-1216. doi: 10.1002/dvdy.209

MAFB modulates the maturation of lymphatic vascular networks in mice

2020

Journal Article

Vascular permeability in retinopathy is regulated by VEGFR2 Y949 signaling to VE-cadherin

Smith, Ross O., Ninchoji, Takeshi, Gordon, Emma, André, Helder, Dejana, Elisabetta, Vestweber, Dietmar, Kvanta, Anders and Claesson-Welsh, Lena (2020). Vascular permeability in retinopathy is regulated by VEGFR2 Y949 signaling to VE-cadherin. eLife, 9 e54056. doi: 10.7554/eLife.54056

Vascular permeability in retinopathy is regulated by VEGFR2 Y949 signaling to VE-cadherin

2020

Journal Article

c-Src controls stability of sprouting blood vessels in the developing retina independently of cell-cell adhesion through focal adhesion assembly

Schimmel, Lilian, Fukuhara, Daisuke, Richards, Mark, Jin, Yi, Essebier, Patricia, Frampton, Emmanuelle, Hedlund, Marie, Dejana, Elisabetta, Claesson-Welsh, Lena and Gordon, Emma (2020). c-Src controls stability of sprouting blood vessels in the developing retina independently of cell-cell adhesion through focal adhesion assembly. Development, 147 (7) 185405, dev.185405. doi: 10.1242/dev.185405

c-Src controls stability of sprouting blood vessels in the developing retina independently of cell-cell adhesion through focal adhesion assembly

2018

Journal Article

The precise molecular signals that control endothelial cell–cell adhesion within the vessel wall

Schimmel, Lilian and Gordon, Emma (2018). The precise molecular signals that control endothelial cell–cell adhesion within the vessel wall. Biochemical Society Transactions, 46 (6), 1673-1680. doi: 10.1042/bst20180377

The precise molecular signals that control endothelial cell–cell adhesion within the vessel wall

2018

Journal Article

Shear stress and VE-cadherin

Caolo, Vincenza, Peacock, Hanna M., Kasaai, Bahar, Swennen, Geertje, Gordon, Emma, Claesson-Welsh, Lena, Post, Mark J., Verhamme, Peter and Jones, Elizabeth A. V. (2018). Shear stress and VE-cadherin. Arteriosclerosis, Thrombosis, and Vascular Biology, 38 (9), 2174-2183. doi: 10.1161/ATVBAHA.118.310823

Shear stress and VE-cadherin

2016

Journal Article

Mechanisms and regulation of endothelial VEGF receptor signalling

Simons, Michael, Gordon, Emma and Claesson-Welsh, Lena (2016). Mechanisms and regulation of endothelial VEGF receptor signalling. Nature Reviews Molecular Cell Biology, 17 (10), 611-625. doi: 10.1038/nrm.2016.87

Mechanisms and regulation of endothelial VEGF receptor signalling

2016

Journal Article

The endothelial adaptor molecule TSAd is required for VEGF-induced angiogenic sprouting through junctional c-Src activation

Gordon, Emma J., Fukuhara, Daisuke, Westrom, Simone, Padhan, Narendra, Sjostrom, Elisabet O., van Meeteren, Laurens, He, Liqun, Orsenigo, Fabrizio, Dejana, Elisabetta, Bentley, Katie, Spurkland, Anne and Claesson-Welsh, Lena (2016). The endothelial adaptor molecule TSAd is required for VEGF-induced angiogenic sprouting through junctional c-Src activation. Science Signaling, 9 (437) ra72, ra72-ra72. doi: 10.1126/scisignal.aad9256

The endothelial adaptor molecule TSAd is required for VEGF-induced angiogenic sprouting through junctional c-Src activation

2016

Journal Article

Novel affinity binders for neutralization of vascular endothelial growth factor (VEGF) signaling

Fleetwood, Filippa, Guler, Rezan, Gordon, Emma, Stahl, Stefan, Claesson-Welsh, Lena and Lofblom, John (2016). Novel affinity binders for neutralization of vascular endothelial growth factor (VEGF) signaling. Cellular and Molecular Life Sciences, 73 (8), 1671-1683. doi: 10.1007/s00018-015-2088-7

Novel affinity binders for neutralization of vascular endothelial growth factor (VEGF) signaling

2016

Journal Article

VEGFR2 pY949 signalling regulates adherens junction integrity and metastatic spread

Li, Xiujuan, Padhan, Narendra, Sjostrom, Elisabet O., Roche, Francis P., Testini, Chiara, Honkura, Naoki, Sainz-Jaspeado, Miguel, Gordon, Emma, Bentley, Katie, Philippides, Andrew, Tolmachev, Vladimir, Dejana, Elisabetta, Stan, Radu V., Vestweber, Dietmar, Ballmer-Hofer, Kurt, Betsholtz, Christer, Pietras, Kristian, Jansson, Leif and Claesson-Welsh, Lena (2016). VEGFR2 pY949 signalling regulates adherens junction integrity and metastatic spread. Nature Communications, 7 (1) 11017. doi: 10.1038/ncomms11017

VEGFR2 pY949 signalling regulates adherens junction integrity and metastatic spread

Funding

Current funding

  • 2022 - 2025
    COVID-19-induced vascular complications: mechanisms and potential therapies
    NHMRC IDEAS Grants
    Open grant

Past funding

  • 2021 - 2024
    Targeting the mechanosensory properties of vessels to control dysfunction in disease
    National Heart Foundation Future Leader Fellowship
    Open grant
  • 2020 - 2023
    Defining mechanisms behind the formation of hierarchical vascular networks
    ARC Discovery Projects
    Open grant
  • 2019 - 2023
    Mechanisms to promote vascular normalisation and barrier integrity
    NHMRC Project Grant
    Open grant
  • 2018
    Molecular cues guiding cell dynamics during pathological blood vessel sprouting
    UQ Early Career Researcher
    Open grant
  • 2017 - 2020
    Molecular signals guiding dynamic cell movement during blood vessel growth
    ARC Discovery Early Career Researcher Award
    Open grant

Supervision

Availability

Dr Emma Gordon is:
Available for supervision

Before you email them, read our advice on how to contact a supervisor.

Supervision history

Current supervision

Completed supervision

  • 2022

    Master Philosophy

    Characterising the role of endothelial c-Src in Oxygen-Induced Retinopathy.

    Principal Advisor

    Other advisors: Dr Lilian Schimmel

Media

Enquiries

Contact Dr Emma Gordon directly for media enquiries about:

  • angiogenesis
  • bioengineered organs
  • cancer metastasis
  • cell adhesion
  • dynamic imaging
  • scientific imaging
  • vascular disease
  • vascular eye disease
  • vascular permeability
  • vessel biology
  • zebrafish

Need help?

For help with finding experts, story ideas and media enquiries, contact our Media team:

communications@uq.edu.au