Dr Mark Bass

School of Biosciences

Lecturer, School Head of Student Recruitment

Mark Bass
Profile picture of Mark Bass
Profile
  • 2015-present: University of 91Ö±²¥ Lecturer & Deputy Director of Undergraduate Student Recruitment, School of Biosciences, University of 91Ö±²¥, UK
  • 2009-2015: Wellcome Trust Research Career Development Fellow, School of Biochemistry, University of Bristol, UK
  • 2001-2009: Postdoctoral Research Associate, Faculty of Life Sciences, University of Manchester, UK
  • 1997-2001: PhD, Biochemistry, School of Biological Sciences, University of Leicester, UK
  • 1996-1997: MRes, Biochemistry University of Leicester, UK
  • 1993-1996: BSc (Hons), Biochemistry University of Leicester, UK
Research interests

Fibroblast migration during wound healing: signalling from extracellular matrix receptors to Rho-family GTPases

Healing defects are one of the largest current health challenges, with chronic wounds frequently requiring amputation of the affected limb. The National Health Service expends £5.3 billion, 4% of the NHS budget, annually, treating 2.2 million patients for wounds, with £1.94 billion alone spent on treating chronic wounds such as venous leg ulcers. The challenge continues to escalate as risk factors such as age and diabetes rise, making wound management one of the major challenges of modern medicine.

Upon wounding healthy skin, inflammatory cells combat infection, fibroblasts migrate into the wound bed and contract the defect, and finally re-epithelialisation closes the gap. However, these processes become less efficient with age and risk factors such as diabetes, obesity or smoking, eventually leading to the formation of chronic wounds that include pressure ulcers, venous leg ulcers and diabetic foot ulcers. The two hallmarks of a chronic wound are a chronic inflammatory response as the skin tries unsuccessfully to deal with infection and failure by fibroblasts to proliferate and migrate in response to stimuli such as growth factors. The fact that scars are usually a fraction of the size of the original wound demonstrates very simply the importance of fibroblast migration and wound contraction, and improving this process is the core objective of our work.

Our laboratory investigates the activation of fibroblasts upon wounding, and the mechanisms by which migration is directed by regulation of the Rho family GTPases, especially the protrusion regulator, Rac1. Our work ranges from the investigation of signalling networks in single cells, through the analysis of in vivo wound healing models, to the development of therapies for treatment of patients.

The work can be divided into three main areas:

1) Regulation of membrane protrusion by Rho-family GTPases

Cell migration requires cycles of protrusion at the leading edge, adhesion to an extracellular matrix and contraction within the cell body. These events are driven by cycles of activation of Rac1 and RhoA. The appearance of fibronectin in wounded tissue triggers cycles of Rac1 and RhoA activity in fibroblasts by engagement of the fibronectin sensor, syndecan-4.

We are examining how syndecan-4 regulates and coordinates Rac1 and RhoA signals by combining traditional biochemistry with live cell imaging techniques. We have developed artificial skin dermis (A) that we can use as a substate to analyse signalling and behaviour by individual cells. For example, we can study GTPase activation using FRET techniques (B) and trafficking of GTPases using photoactivation and time-lapse microscopy (C). Perturbation of components of the syndecan-4 signalling chain by RNAi is revealing that syndecan-4 synchronises the activation/inhibition of Rac1 and RhoA signals and more importantly localises protrusion. The functional consequences of these signals can be tested by examining the migration of cells through the complex fibrillar matrices that are structurally similar to skin (D). We find that sydecan-4-directed GTPase regulation is necessary for persistent migration along matrix fibres. We can go even further by demonstrating that inhibition of the signals causes defects in zebrafish development (E), demonstrating broad effects on mesenchymal migration.

Mark Bass Figure 1A
Mark Bass Figure 1B

A) Fibroblasts stained for focal adhesion markers (red) embed into a 3D fibrous matrix (green).

B) Active Rac1 (green) is polarised to the front of a migrating cell, detected by FRET.

C) Photoactivation of fluorophore-labelled Rac1 allows analysis of the redistribution of Rac1 over time in response to different stimuli.

D) Migration tracks of fibroblasts migrating through a 3D fibrous matrix, demonstrating both speed and directionality of migration.

E) Knockdown of molecules that regulate trafficking of Rac1 leads to misalignment of pharyngeal arches in the developing zebrafish, due to compromised neural crest migration.


2) Cooperation between transmembrane receptors regulates focal adhesion dynamics

Membrane protrusion must be coordinated with formation and dissolution of focal adhesions for migration to occur. Furthermore, crosstalk between different transmembrane receptors leads to a coordinated response to growth factor and extracellular matrix signals. We are investigating the regulation of integrin trafficking by syndecan-4 using atomic force microscopy to measure adhesive strength (F+G) and TIRF to follow removal of β1-integrin from the adhesion plane upon engagement of syndecan-4 (H). By extrapolating the effect of syndecan-4 on adhesion receptors to investigate the effects on growth factor receptor activation and trafficking, we gain a fuller picture of how signals are coordinated. Finally, we are also using mass spectrometry to identify key trafficking regulators, an approach that is likely to identify new therapeutic targets for the promotion of fibroblast migration and healing.

Mark Bass Figure 2A
Mark Bass Figure 2B

F) Single cells captured on the cantilever of an atomic force microscope can be brought into contact with an extracellular matrix before withdrawal of the cell to measure strength of adhesion.

G) Measurements of cantilever deflection in the atomic force microscope allow the force required to detach a cell to be calculated, and the effects of specific molecules on cell avidity to be determined.

H) Imaging of GFP-β1-integrin in the adhesion plane by TIRF reveals that syndecan-4 engagement triggers internalisation of integrin.


3) Ultrasonic healing therapies

The translation of our findings to in vivo healing models, and subsequently patient therapies is a crucial aspect of our work. Disruptions in signalling by transmembrane receptors or Rac1 cause migration to become less efficient and lead to delays in healing processes. For example, deletion of the transmembrane receptor, syndecan-4, is not lethal, but does delay skin healing (I+J). Introduction of pathological risk factors, such as age or diabetes cause similar delays in mice.

We are investigating techniques to reverse healing defects by activating Rac1. Our most notable advances have come from the use of low-intensity pulsed ultrasound to stimulate fibroblast migration. (K) We find that skin wounds heal more slowly in diabetic (green curve) than healthy mice (orange curve). However, normal healing can be restored in diabetic animals by daily treatments with ultrasound (pink line). The effect of ultrasound can be seen at the cellular level in biopsies as the number of brown fibroblasts recruited to an ultrasound-treated diabetic wound far exceeds that recruited to an untreated wound (L).

Mark Bass Figure 3A
Mark Bass Figure 3B

I) Knockout of syndecan-4 causes a defect in contraction of skin wounds. J) Knockout of syndecan-4 (red line) causes a delay in the closure rate of skin wounds.

K) The healing defects of diabetic mice (green) can be restored to the rates of healthy control mice (orange) by the application of ultrasound (pink).

L) Ultrasound treatment stimulates the recruitment of fibroblasts (brown) to the wounds of diabetic animals.


By combining this range of approaches to address the mechanism of fibroblast migration during wound healing, we move closer to developing some promising therapies, and bringing them into mainstream clinical use.

Publications

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Journal articles

  • Atkinson SJ, Gontarczyk AM, Alghamdi AAA, Ellison TS, Johnson RT, Fowler WJ, Kirkup BM, Silva BC, Harry BE, Schneider JG , Weilbaecher KN et al (2018) . EMBO reports, 19(7). RIS download Bibtex download
  • Roper JA, Williamson RC, Bally B, Cowell CAM, Brooks R, Stephens P, Harrison AJ & Bass MD (2015) . Journal of Investigative Dermatology, 135(11), 2842-2851. RIS download Bibtex download
  • Williamson RC, Cowell CAM, Reville T, Roper JA, Rendall TCS & Bass MD (2015) . Journal of Biological Chemistry, 290(25), 15437-15449. RIS download Bibtex download
  • Williamson RC, Cowell CAM, Hammond CL, Bergen DJM, Roper JA, Feng Y, Rendall TCS, Race PR & Bass MD (2014) . Journal of Cell Science, 127(19), 4292-4307. RIS download Bibtex download
  • Cash JL, Bass MD, Campbell J, Barnes M, Kubes P & Martin P (2014) . Current Biology, 24(12), 1406-1414. RIS download Bibtex download
  • Morgan MR, Hamidi H, Bass MD, Warwood S, Ballestrem C & Humphries MJ (2013) . Developmental Cell, 24(5), 472-485. RIS download Bibtex download
  • Bass MD, Williamson RC, Nunan RD, Humphries JD, Byron A, Morgan MR, Martin P & Humphries MJ (2012) . Developmental Cell, 23(5), 1081-1082. RIS download Bibtex download
  • Byron A, Humphries JD, Bass MD, Knight D & Humphries MJ (2011) . Science Signaling, 4(167), pt2-pt2. RIS download Bibtex download
  • Mahoney CM, Morgan MR, Harrison A, Humphries MJ & Bass MD (2009) . Journal of Biological Chemistry, 284(13), 8898-8909. RIS download Bibtex download
  • Bass MD, Morgan MR, Roach KA, Settleman J, Goryachev AB & Humphries MJ (2008) . Journal of Cell Biology, 181(6), 1013-1026. RIS download Bibtex download
  • Bass MD, Roach KA, Morgan MR, Mostafavi-Pour Z, Schoen T, Muramatsu T, Mayer U, Ballestrem C, Spatz JP & Humphries MJ (2007) . Journal of Cell Biology, 177(3), 527-538. RIS download Bibtex download

All publications

Journal articles

  • Atkinson SJ, Gontarczyk AM, Alghamdi AAA, Ellison TS, Johnson RT, Fowler WJ, Kirkup BM, Silva BC, Harry BE, Schneider JG , Weilbaecher KN et al (2018) . EMBO reports, 19(7). RIS download Bibtex download
  • Barbour ME, Maddocks SE, Grady HJ, Roper JA, Bass MD, Collins AM, Dommett RM & Saunders M (2016) . Nanomedicine, 11(16), 2049-2057. RIS download Bibtex download
  • Roper JA, Williamson RC, Bally B, Cowell CAM, Brooks R, Stephens P, Harrison AJ & Bass MD (2015) . Journal of Investigative Dermatology, 135(11), 2842-2851. RIS download Bibtex download
  • Williamson RC & Bass MD (2015) . Journal of Visualized Experiments(104). RIS download Bibtex download
  • Williamson RC, Cowell CAM, Reville T, Roper JA, Rendall TCS & Bass MD (2015) . Journal of Biological Chemistry, 290(25), 15437-15449. RIS download Bibtex download
  • Tilley FC, Williamson RC, Race PR, Rendall TC & Bass MD (2015) . Small GTPases, 6(1), 36-42. RIS download Bibtex download
  • Williamson RC, Cowell CAM, Hammond CL, Bergen DJM, Roper JA, Feng Y, Rendall TCS, Race PR & Bass MD (2014) . Journal of Cell Science, 127(19), 4292-4307. RIS download Bibtex download
  • Cash JL, Bass MD, Campbell J, Barnes M, Kubes P & Martin P (2014) . Current Biology, 24(12), 1406-1414. RIS download Bibtex download
  • Cash JL, Bass MD, Campbell J, Barnes M, Kubes P & Martin P (2014) . Current Biology, 24(12), 1435-1435. RIS download Bibtex download
  • Goggs R, Harper MT, Pope RJ, Savage JS, Williams CM, Mundell SJ, Heesom KJ, Bass M, Mellor H & Poole AW (2013) . Journal of Biological Chemistry, 288(47), 34217-34229. RIS download Bibtex download
  • Morgan MR, Hamidi H, Bass MD, Warwood S, Ballestrem C & Humphries MJ (2013) . Developmental Cell, 24(5), 472-485. RIS download Bibtex download
  • Brooks R, Williamson RC & Bass MD (2012) . Small GTPases, 3(2), 73-79. RIS download Bibtex download
  • Bass MD, Williamson RC, Nunan RD, Humphries JD, Byron A, Morgan MR, Martin P & Humphries MJ (2012) . Developmental Cell, 23(5), 1081-1082. RIS download Bibtex download
  • Roper JA, Williamson RC & Bass MD (2012) . Current Opinion in Structural Biology, 22(5), 583-590. RIS download Bibtex download
  • Steinberg F, Heesom KJ, Bass MD & Cullen PJ (2012) . The Journal of Cell Biology, 197(2), 219-230. RIS download Bibtex download
  • Bass MD (2011) . Nature Cell Biology, 13(11), 1292-1293. RIS download Bibtex download
  • Bass MD, Williamson RC, Nunan RD, Humphries JD, Byron A, Morgan MR, Martin P & Humphries MJ (2011) . Developmental Cell, 21(4), 681-693. RIS download Bibtex download
  • Byron A, Humphries JD, Bass MD, Knight D & Humphries MJ (2011) . Science Signaling, 4(167), pt2-pt2. RIS download Bibtex download
  • Morgan MR, Byron A, Humphries MJ & Bass MD (2009) . IUBMB Life, 61(7), 731-738. RIS download Bibtex download
  • Humphries JD, Byron A, Bass MD, Craig SE, Pinney JW, Knight D & Humphries MJ (2009) . Science Signaling, 2(87), ra51-ra51. RIS download Bibtex download
  • Deakin NO, Bass MD, Warwood S, Schoelermann J, Mostafavi-Pour Z, Knight D, Ballestrem C & Humphries MJ (2009) . Journal of Cell Science, 122(10), 1654-1664. RIS download Bibtex download
  • Bass MD, Morgan MR & Humphries MJ (2009) . Science Signaling, 2(64), pe18-pe18. RIS download Bibtex download
  • Mahoney CM, Morgan MR, Harrison A, Humphries MJ & Bass MD (2009) . Journal of Biological Chemistry, 284(13), 8898-8909. RIS download Bibtex download
  • Bass MD, Morgan MR, Roach KA, Settleman J, Goryachev AB & Humphries MJ (2008) . Journal of Cell Biology, 181(6), 1013-1026. RIS download Bibtex download
  • Morgan MR, Humphries MJ & Bass MD (2007) . Nature Reviews Molecular Cell Biology, 8(12), 957-969. RIS download Bibtex download
  • Bass MD, Roach KA, Morgan MR, Mostafavi-Pour Z, Schoen T, Muramatsu T, Mayer U, Ballestrem C, Spatz JP & Humphries MJ (2007) . Journal of Cell Biology, 177(3), 527-538. RIS download Bibtex download
  • Bass MD, Morgan MR & Humphries MJ (2007) . Soft Matter, 3(3), 372-372. RIS download Bibtex download
  • BASS MD & HUMPHRIES MJ (2002) . Biochemical Journal, 368(1), 1-15. RIS download Bibtex download
  • BASS MD, PATEL B, BARSUKOV IG, FILLINGHAM IJ, MASON R, SMITH BJ, BAGSHAW CR & CRITCHLEY DR (2002) . Biochemical Journal, 362(3), 761-761. RIS download Bibtex download
  • BASS MD, SMITH BJ, PRIGENT SA & CRITCHLEY DR (1999) . Biochemical Journal, 341(2), 257-263. RIS download Bibtex download
  • Roper J, Harrison A & Bass MD () . Journal of Visualized Experiments(63). RIS download Bibtex download

Conference proceedings papers

  • Humphries MJ, Mostafavi-Pour Z, Morgan MR, Deakin NO, Messent AJ & Bass MD () (pp 178-192) RIS download Bibtex download

Preprints

  • Atkinson SJ, Gontarczyk AM, Ellison TS, Johnson RT, Kirkup BM, Alghamdi A, Fowler WJ, Silva BC, Schneider JJ, Weilbaecher KN , Mogensen MM et al () , Cold Spring Harbor Laboratory. RIS download Bibtex download
Teaching activities

Undergraduate:

  • BMS106 Pathobiology
  • BMS109 Cell & Molecular
  • BMS242/243 Research Career Paths
  • BMS336 Modelling Human Disease and Dysfunction
     
  • Level 3 Final Year Dissertation Modules (Coordinator)
Professional activities and memberships

Deputy Director of Undergraduate Student Recruitment, School of Biosciences, Summer Research Experience Scheme (Coordinator)