Tracking-Free Determination of Single-Cell Displacements and Division Rates in Confluent Monolayers

A biological tissue is an ensemble of soft cells in close physical contact. Events such as cell-shape changes and, more rarely, cell-divisions and apoptosis continuously occur in a tissue, whose collective behavior is set by the cumulative occurrence of such events. In this complex environment, quantifying the single-cell dynamics is key to extract quantitative information to be used to capture the fundamental ingredients of this collective tissue dynamics for validating the predictions of models and numerical simulations. However, tracking the motion of each cell in a dense assembly, even in controlled in vitro settings, is a demanding task, because of a combination of different factors, such as poor image quality, cell shape variability and cell deformability. Here we show that Differential Dynamic Microscopy (DDM), an approach that provides a characterization of the sample structure and dynamics at various spatial frequencies (wave-vectors), can be used successfully to extract quantitative information about a confluent monolayer of Madin-Darby Canine Kidney (MDCK) epithelial cells. In particular, combining structural and dynamical information obtained at different wave-vectors, we show that DDM can provide the single-cell mean squared displacement and the cell division rate at various stages during the temporal evolution of the monolayer. In contrast with tracking algorithms, which require expert supervision and a considerate choice of the analysis parameters, DDM analysis can be run in an automated fashion and yields an unbiased quantification of the dynamic processes under scrutiny, thus providing a powerful means to probe the single-cell dynamics within dense cell collectives

Giant fluctuations and structural effects in a flocking epithelium

We thank S Henkes for useful discussions. FGia and RC acknowledge funding from the Italian Ministry of University and Scientific Research (MIUR) under the program Futuro in Ricerca—Project ANISOFT (RBFR125H0M) and from Regione Lombardia and CARIPLO foundation under the joint action Avviso congiunto per l'incremento dell'attrattivitá del sistema ricerca lombardo e della competitivitá dei ricercatori candidati su strumenti ERC—Project 2016-0998. CM, SC and GS acknowledge funding from Associazione Italiana per la Ricerca sul Cancro (AIRC 10168 and 18621), MIUR, the Italian Ministry of Health, Ricerca Finalizzata (RF0235844), Worldwide Cancer Research (AICR-14-0335), and the European Research Council (Advanced-ERC-268836). CM was also supported by Fondazione Umberto Veronesi and SC by an AIRC fellowship. FGin acknowledges support from the Marie Curie Career Integration Grant (CIG) PCIG13-GA-2013-618399, and wish to thank the University of Milan and LibrOsteria for their hospitality while this work was underway.Peer reviewedPostprin

Bursts of activity in collective cell migration

Dense monolayers of living cells display intriguing relaxation dynamics, reminiscent of soft and glassy materials close to the jamming transition, and migrate collectively when space is available, as in wound healing or in cancer invasion. Here we show that collective cell migration occurs in bursts that are similar to those recorded in the propagation of cracks, fluid fronts in porous media and ferromagnetic domain walls. In analogy with these systems, the distribution of activity bursts displays scaling laws that are universal in different cell types and for cells moving on different substrates. The main features of the invasion dynamics are quantitatively captured by a model of interacting active particles moving in a disordered landscape. Our results illustrate that collective motion of living cells is analogous to the corresponding dynamics in driven, but inanimate, systems

Stratigraphic framework of the late Miocene to Pliocene Pisco Formation at Cerro Colorado (Ica Desert, Peru)

This paper describes a 200 m-thick section of the Pisco Formation exposed at Cerro Colorado, an important fossiliferous site in the Ica desert. In order to properly place the fauna in its correct relative position, this study establishes the stratigraphic framework within which the different fossil-bearing intervals of this site can be compared and may prove invaluable in future high-resolution studies on the faunal change. Most of the Pisco Formation deposits exposed at Cerro Colorado consist of gently dipping fine-grained sandstones, diatomaceous siltstones and diatomites with minor ash layers and dolomites deposited within nearshore and offshore settings. To facilitate detailed stratigraphic correlations within the Pisco strata for a 30 km2 area, eight marker beds have been defined and large-scale (1:10,000 scale) geological mapping conducted to determine fault positions, styles and offsets. The geological map shows that there are two important angular unconformities in the study area. The first one is the interformational basal unconformity of the Pisco Formation against folded, faulted, and planated Oligo-Miocene rocks of the Chilcatay Formation. The second is a low-angle intraformational erosional discontinuity of up to 48 angular discordance that allows the subdivision of the Pisco stratigraphy exposed in the study area into two informal allomembers. Dating of the exposed succession by diatom biostratigraphy suggests that the age of the lower allomember is late Miocene, whereas the upper allomember is late Miocene or younger

The CDC42-Interacting Protein 4 Controls Epithelial Cell Cohesion and Tumor Dissemination

SummaryThe role of endocytic proteins and the molecular mechanisms underlying epithelial cell cohesion and tumor dissemination are not well understood. Here, we report that the endocytic F-BAR-containing CDC42-interacting protein 4 (CIP4) is required for ERBB2- and TGF-β1-induced cell scattering, breast cancer (BC) cell motility and invasion into 3D matrices, and conversion from ductal breast carcinoma in situ to invasive carcinoma in mouse xenograft models. CIP4 promotes the formation of an E-cadherin-CIP4-SRC complex that controls SRC activation, E-cadherin endocytosis, and localized phosphorylation of the myosin light chain kinase, thereby impinging on the actomyosin contractility required to generate tangential forces to break cell-cell junctions. CIP4 is upregulated in ERBB2-positive human BC, correlates with increased distant metastasis, and is an independent predictor of poor disease outcome in subsets of BC patients. Thus, it critically controls cell-cell cohesion and is required for the acquisition of an invasive phenotype in breast tumors

Impact of sulphurous water Politzer inhalation on audiometric parameters in children with otitis media with effusion

Objectives: The positive effects of spa therapy on ear, nose, and throat pathology are known but robust literature in this field, is still lacking. The aim of this study was to assess through a retrospective analysis, the effects on otitis media with effusion of Politzer endotympanic inhalation of sulphurous waters in children aged 5-9 years. Methods: A cohort of 95 patients was treated with Politzer insufflations of sulphurous water: 58 patients did a cycle consisting of a treatment of 12 days per year for three consecutive years; 37 patients followed the same procedure for 5 years consecutively. The control population was represented by untreated, age-matched children. A standard audiometric test was used before and after each cycle of treatment. Results: One cycle of Politzer inhalation of sulphur-rich water improved the symptoms. Three cycles definitively stabilized the improvement of hearing function. Conclusion: Our results show that otitis media with effusion in children can be resolved by an appropriate non-pharmacological treatment of middle ear with sulphur-rich water

Endocytic reawakening of motility in jammed epithelia.

Dynamics of epithelial monolayers has recently been interpreted in terms of a jamming or rigidity transition. How cells control such phase transitions is, however, unknown. Here we show that RAB5A, a key endocytic protein, is sufficient to induce large-scale, coordinated motility over tens of cells, and ballistic motion in otherwise kinetically arrested monolayers. This is linked to increased traction forces and to the extension of cell protrusions, which align with local velocity. Molecularly, impairing endocytosis, macropinocytosis or increasing fluid efflux abrogates RAB5A-induced collective motility. A simple model based on mechanical junctional tension and an active cell reorientation mechanism for the velocity of self-propelled cells identifies regimes of monolayer dynamics that explain endocytic reawakening of locomotion in terms of a combination of large-scale directed migration and local unjamming. These changes in multicellular dynamics enable collectives to migrate under physical constraints and may be exploited by tumours for interstitial dissemination

When paleontology meets technology: 3D reconstructions of fossil vertebrates from the Pisco Formation (Ica, Peru)

In the last years different 3D reconstruction methods have been increasingly used in paleontological studies, especially in vertebrate paleontology. Recently we supported our taphonomic studies on the marine vertebrate assemblage from the Pisco Formation (Peru) by using a 3D rendering technique. We chose the Agisoft PhotoScan Software which elaborates 3D images from just a photo shooting in series around the fossil. For the successful completion of the 3D reconstruction we factored 50% overlap between a photo and the next one. The main challenge during image capture was the different lighting of exposed bones and the low contrast between the fossil and the background; for example, sometimes the color contrast between bones and the surrounding sediment was poorly defined. The fossils from Pisco Formation are particularly indicated for this technique due to their exceptional preservation permitting to get spectacular and very informative 3D images. A significant fossil from a taphonomic point of view is a portion of a partially articulated skeleton of Messapicetus gregarius (Cetacea, Ziphiidae) discovered in Cerro Colorado, the type locality of the giant stem sperm whale Livyatan melvillei. The 3D image evidences the peculiar preservation of this fossil with the skull and articulated mandibles far from the thoracic portion of the skeleton (ribs, vertebrae and sternum partially articulated). Another interesting specimen consists of a large skeleton of a balaenopteroid cetacean from Cerro los Quesos locality. Its 3D image shows the skull lying dorsally and partially destroyed by the Recent erosion, the mandibles a few centimeters displaced from their original position, the incomplete vertebral column with several fragmented ribs and a scapula. A third examined specimen is now kept in the Museum de Historia Natural de la Universitad Nacional Mayor de San Marco. This fossil is still partially inside the sediment. The bones are exceptionally well preserved: the skull and the mandibles are articulated whereas the postcranial skeleton (vertebrae, ribs and scapulae) are disarticulated but still associated. The specimen belongs to Brachydelphis mazeasi (Cetacea, Pontoporiidae) and was collected in Corriviento locality. The three-dimensional reconstructions of the specimens above described represent the first application of 3D technology to the paleontological studies conducted in the areas of the Pisco Formation. Acknowledgements. This research was supported by a grant of the Italian Ministero dell’Istruzione, dell’Università e della Ricerca (PRIN Project 2012YJSBMK) and by a National Geographic Society Committee on Research Exploration grant (9410-13)

Geological Map of the Late Miocene-Pliocene Pisco Formation at Cerro Colorado (Ica Desert, Peru)

This large-scale (1:10,000 scale) geological map shows the marine sediments exposed at Cerro Colorado, an important fossiliferous site in the Ica desert (Peru)