Brillouin microscopy: an emerging tool for mechanobiology

Prevedel, Robert; Diz-Muñoz, Alba; Ruocco, G.; Antonacci, Giuseppe

doi:10.1038/s41592-019-0543-3

Cited by 306 publications

(291 citation statements)

References 113 publications

(121 reference statements)

Supporting

Mentioning

261

Contrasting

Order By: Relevance

“…Hypothesizing that the precise positioning of the IF-rich endotube serves an important mechanical function, we performed Brillouin microscopy. This method allows the contact-free determination of viscoelastic properties in living cells and tissues at subcellular resolution [24][25][26] . To this end, IFC-2e::YFP reporter worms were immobilized by 10% levamisole prior to imaging.…”

Section: Intestinal Intermediate Filaments Are Positioned At the Intementioning

confidence: 99%

See 1 more Smart Citation

Intestinal intermediate filament polypeptides in C. elegans: Common and isotype-specific contributions to intestinal ultrastructure and function

Geisler

Coch

Richardson

et al. 2020

Sci Rep

Self Cite

View full text Add to dashboard Cite

The abundance and diversity of intermediate filaments (IFs) in the C. elegans intestine indicate important contributions to intestinal function and organismal wellbeing. fluorescent if reporters localize below the actin-rich brush border and are highly enriched in the lumen-enveloping endotube, which is attached to the C. elegans apical junction. Mapping intestinal viscoelasticity by contact-free Brillouin microscopy reveals that the IF-rich endotube is positioned at the interface between the stiff brush border and soft cytoplasm suggesting a mechanical buffering function to deal with the frequent luminal distortions occurring during food intake and movement. In accordance, depletion of IFB-2, IFC-2 and IFD-2 leads to intestinal lumen dilation although depletion of IFC-1, IFD-1 and IFP-1 do not. Ultrastructural analyses of loss of function mutants further show that IFC-2 mutants have a rarefied endotube and IFB-2 mutants lack an endotube altogether. Remarkably, almost all IFB-2-and IFC-2-deficient animals develop to fertile adults. But developmental retardation, reduced brood size, altered survival and increased sensitivity to microbial toxin, osmotic and oxidative stress are seen in both mutants albeit to different degrees. Taken together, we propose that individual intestinal IF polypeptides contribute in different ways to endotube morphogenesis and cooperate to cope with changing environments.

show abstract

Section: Intestinal Intermediate Filaments Are Positioned At the Intementioning

confidence: 99%

“…The Brillouin signal, i.e. the Brillouin frequency shift that is a proxy for stiffness 25,26 , revealed two regions: a central area of high stiffness that is surrounded by a region of low stiffness (yellow to red versus blue in Fig. 4a,b).…”

Section: Intestinal Intermediate Filaments Are Positioned At the Intementioning

confidence: 99%

Intestinal intermediate filament polypeptides in C. elegans: Common and isotype-specific contributions to intestinal ultrastructure and function

Geisler

Coch

Richardson

et al. 2020

Sci Rep

Self Cite

View full text Add to dashboard Cite

show abstract

“…We will then summarize and discuss recent findings on the Box 1: Biophysical tools measuring embryonic tissue rheology Cell/tissue force spectroscopy: Cell/tissue force spectroscopy is an Atomic Force Microscopy (AFM) application used for measuring material properties of cells and tissues. In addition, from the linewidth of the Brillouin peaks the viscosity of the tissue can be obtained (preprint: Prevedel et al, 2019). For probing large-scale material properties within embryonic tissues, typically a large bead is attached to the AFM cantilever in order to avoid probing local cell heterogeneities.…”

Section: Rheologymentioning

confidence: 99%

“…The longitudinal modulus serves as an approximate for rigidity since it is higher for more rigid materials and lower for less rigid materials. In addition, from the linewidth of the Brillouin peaks the viscosity of the tissue can be obtained (preprint: Prevedel et al, 2019). BM has been used to map 3D ECM stiffness of the notochord in zebrafish embryos (Bevilacqua et al, 2019).…”

Section: Rheologymentioning

confidence: 99%

Tissue rheology in embryonic organization

2019

View full text Add to dashboard Cite

Tissue morphogenesis in multicellular organisms is brought about by spatiotemporal coordination of mechanical and chemical signals. Extensive work on how mechanical forces together with the well‐established morphogen signalling pathways can actively shape living tissues has revealed evolutionary conserved mechanochemical features of embryonic development. More recently, attention has been drawn to the description of tissue material properties and how they can influence certain morphogenetic processes. Interestingly, besides the role of tissue material properties in determining how much tissues deform in response to force application, there is increasing theoretical and experimental evidence, suggesting that tissue material properties can abruptly and drastically change in development. These changes resemble phase transitions, pointing at the intriguing possibility that important morphogenetic processes in development, such as symmetry breaking and self‐organization, might be mediated by tissue phase transitions. In this review, we summarize recent findings on the regulation and role of tissue material properties in the context of the developing embryo. We posit that abrupt changes of tissue rheological properties may have important implications in maintaining the balance between robustness and adaptability during embryonic development.

show abstract

“…With the combination of microfluidics, photonic and imaging technologies, it is now possible to study the 3D refractive index of a cell in the sub-micron regime, as Liu et al detailed in their review in 2016 [185]. In addition to this, it is possible to use Brillouin microscopy, where the optical phase shift of a cell gives information about the cells local stiffness and water content, given the local refractive indices are known [186], or measured alongside using one of the techniques listed in Table 1. Three major approaches for probing the cell refractive index can be summarized, as shown in Table 9, below:…”

Section: Optical Density/ Refractive Indexmentioning

confidence: 99%

Lab-on-a-Chip Technologies for the Single Cell Level: Separation, Analysis, and Diagnostics

Hochstetter

2020

Micromachines

View full text Add to dashboard Cite

In the last three decades, microfluidics and its applications have been on an exponential rise, including approaches to isolate rare cells and diagnose diseases on the single-cell level. The techniques mentioned herein have already had significant impacts in our lives, from in-the-field diagnosis of disease and parasitic infections, through home fertility tests, to uncovering the interactions between SARS-CoV-2 and their host cells. This review gives an overview of the field in general and the most notable developments of the last five years, in three parts: 1. What can we detect? 2. Which detection technologies are used in which setting? 3. How do these techniques work? Finally, this review discusses potentials, shortfalls, and an outlook on future developments, especially in respect to the funding landscape and the field-application of these chips.

show abstract

Brillouin microscopy: an emerging tool for mechanobiology

Cited by 306 publications

References 113 publications

Intestinal intermediate filament polypeptides in C. elegans: Common and isotype-specific contributions to intestinal ultrastructure and function

Intestinal intermediate filament polypeptides in C. elegans: Common and isotype-specific contributions to intestinal ultrastructure and function

Tissue rheology in embryonic organization

Lab-on-a-Chip Technologies for the Single Cell Level: Separation, Analysis, and Diagnostics

Contact Info

Product

Resources

About