Investigator

Timo Betz

Professor · Georg-August-Universität Göttingen, Third Institute of Physics (Biophysics)

Research Interests

TBTimo Betz
Papers(1)
Pressure Drives Rapid…
Collaborators(4)
Bart E. VosJohanna IvaskaRaphael WittkowskiSwetha Raghuraman
Institutions(2)
University Of MnsterUniversity of Turku

Papers

Pressure Drives Rapid Burst‐Like Coordinated Cellular Motion from 3D Cancer Aggregates

AbstractA key behavior observed during morphogenesis, wound healing, and cancer invasion is that of collective and coordinated cellular motion. Hence, understanding the different aspects of such coordinated migration is fundamental for describing and treating cancer and other pathological defects. In general, individual cells exert forces on their environment in order to move, and collective motion is coordinated by cell–cell adhesion‐based forces. However, this notion ignores other mechanisms that encourage cellular movement, such as pressure differences. Here, using model tumors, it is found that increased pressure drove coordinated cellular motion independent of cell–cell adhesion by triggering cell swelling in a soft extracellular matrix (ECM). In the resulting phenotype, a rapid burst‐like stream of cervical cancer cells emerged from 3D aggregates embedded in soft collagen matrices (0.5 mg mL−1). This fluid‐like pushing mechanism, recorded within 8 h after embedding, shows high cell velocities and super‐diffusive motion. Because the swelling in this model system critically depends on integrin‐mediated cell–ECM adhesions and cellular contractility, the swelling is likely triggered by unsustained mechanotransduction, providing new evidence that pressure‐driven effects must be considered to more completely understand the mechanical forces involved in cell and tissue movement as well as invasion.

79Works
1Papers
4Collaborators
Cell Line, TumorCancer-Associated FibroblastsColonic NeoplasmsNeoplasm InvasivenessTumor Cells, Cultured

Positions

2020–

Professor

Georg-August-Universität Göttingen · Third Institute of Physics (Biophysics)

2016–

Professor (Tenure Track)

Westfälische Wilhelms-Universität Münster · Medical Faculty

2015–

PI

Westfälische Wilhelms-Universität Münster · ZMBE, Institut of cell biology

2011–

Chargé de recherche

CNRS Délégation Paris B · Institut Curie, Physical Chemistry Unit

2007–

Postdoc

Institut Curie · Physical Chemistry Unit, UMR 168

Education

2007

Dr

University of Leipzig · Institut of softmatter physics

2003

Diplom Physiker

Julius Maximilian University of Würzburg · Physics

2001

Master of Arts

The University of Texas at Austin · Physics

Country

DE

Keywords
cell mechanicsoptical tweezersactin cytoskeletontraction forces