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      Characterization of the focal adhesion interactome

      Hohensee, Tabea

      [Thesis]. Manchester, UK: The University of Manchester; 2019.

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      Abstract

      It is still unknown how exactly cells respond to their extracellular matrix (ECM) and how they react to changes in it. For example a stiffer ECM environment in breast tissue heightens the likelihood to develop breast cancer, but how theses cells detect and react to changed stiffness is not clear. In order gain a better insight into the link between ECM and the control of cell behaviour it is essential to understand the complexity of focal adhesions (FAs), the complex of proteins linking cells to the ECM and interpreting information about their extracellular environment. To identify novel regulatory components of FAs, we have used in vivo biotinylation techniques to measure changes in protein interactions by quantitative mass spectrometry. BirA is a modified bacterial enzyme capable of biotinylating proteins in close proximity while it has access to biotin. It can therefore be expressed in fusion with proteins of interest and used to identify interactions in situ. We have set out to use integrin α5 and focal adhesion kinase (FAK) as BirA fusions, and then stably integrated these into U2OS cells. With this approach our goal was to label proteins interacting with either integrin α5 or FAK, and to identify potential novel regulatory proteins. Biotin labeled proteins were purified by affinity purification and then analyzed via SILAC mass spectroscopy. The integrin and FAK interactomes thus identified were compared with those of other focal adhesion proteins studied in our lab, allowing further dissection of the network within the adhesome. To understand how these cells react to different environments, the U2OS BirA FAK cells were grown on a stiff and soft matrix. Therein a new potential role of FAK was discovered in response to ECM stiffness. Further more using the BioID approach we now identified a possibly new interactor of the adhesome, ARHGAP1. Together, these results indicate that proximity biotin labeling can be a useful tool to identify potential new transient interacting proteins in FAs.

      Bibliographic metadata

      Type of resource:
      Content type:
      Form of thesis:
      Type of submission:
      Degree type:
      Doctor of Philosophy
      Degree programme:
      PhD Singapore A*STAR 4yr (CMB)
      Publication date:
      Location:
      Manchester, UK
      Total pages:
      222
      Abstract:
      It is still unknown how exactly cells respond to their extracellular matrix (ECM) and how they react to changes in it. For example a stiffer ECM environment in breast tissue heightens the likelihood to develop breast cancer, but how theses cells detect and react to changed stiffness is not clear. In order gain a better insight into the link between ECM and the control of cell behaviour it is essential to understand the complexity of focal adhesions (FAs), the complex of proteins linking cells to the ECM and interpreting information about their extracellular environment. To identify novel regulatory components of FAs, we have used in vivo biotinylation techniques to measure changes in protein interactions by quantitative mass spectrometry. BirA is a modified bacterial enzyme capable of biotinylating proteins in close proximity while it has access to biotin. It can therefore be expressed in fusion with proteins of interest and used to identify interactions in situ. We have set out to use integrin α5 and focal adhesion kinase (FAK) as BirA fusions, and then stably integrated these into U2OS cells. With this approach our goal was to label proteins interacting with either integrin α5 or FAK, and to identify potential novel regulatory proteins. Biotin labeled proteins were purified by affinity purification and then analyzed via SILAC mass spectroscopy. The integrin and FAK interactomes thus identified were compared with those of other focal adhesion proteins studied in our lab, allowing further dissection of the network within the adhesome. To understand how these cells react to different environments, the U2OS BirA FAK cells were grown on a stiff and soft matrix. Therein a new potential role of FAK was discovered in response to ECM stiffness. Further more using the BioID approach we now identified a possibly new interactor of the adhesome, ARHGAP1. Together, these results indicate that proximity biotin labeling can be a useful tool to identify potential new transient interacting proteins in FAs.
      Thesis main supervisor(s):
      Thesis co-supervisor(s):
      Language:
      en

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        Record metadata

        Manchester eScholar ID:
        uk-ac-man-scw:318814
        Created by:
        Hohensee, Tabea
        Created:
        20th March, 2019, 08:42:55
        Last modified by:
        Hohensee, Tabea
        Last modified:
        4th January, 2021, 11:38:47

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