Searched for: Department/Unit:Cell Biology
A mathematical model of collective cell migration in a three-dimensional, heterogeneous environment
Stonko, David P; Manning, Lathiena; Starz-Gaiano, Michelle; Peercy, Bradford E
Cell migration is essential in animal development, homeostasis, and disease progression, but many questions remain unanswered about how this process is controlled. While many kinds of individual cell movements have been characterized, less effort has been directed towards understanding how clusters of cells migrate collectively through heterogeneous, cellular environments. To explore this, we have focused on the migration of the border cells during Drosophila egg development. In this case, a cluster of different cell types coalesce and traverse as a group between large cells, called nurse cells, in the center of the egg chamber. We have developed a new model for this collective cell migration based on the forces of adhesion, repulsion, migration and stochastic fluctuation to generate the movement of discrete cells. We implement the model using Identical Math Cells, or IMCs. IMCs can each represent one biological cell of the system, or can be aggregated using increased adhesion forces to model the dynamics of larger biological cells. The domain of interest is filled with IMCs, each assigned specific biophysical properties to mimic a diversity of cell types. Using this system, we have successfully simulated the migration of the border cell cluster through an environment filled with larger cells, which represent nurse cells. Interestingly, our simulations suggest that the forces utilized in this model are sufficient to produce behaviors of the cluster that are observed in vivo, such as rotation. Our framework was developed to capture a heterogeneous cell population, and our implementation strategy allows for diverse, but precise, initial position specification over a three- dimensional domain. Therefore, we believe that this model will be useful for not only examining aspects of Drosophila oogenesis, but also for modeling other two or three-dimensional systems that have multiple cell types and where investigating the forces between cells is of interest.
PMCID:4395426
PMID: 25875645
ISSN: 1932-6203
CID: 2141642
Culturing Drosophila Egg Chambers and Investigating Developmental Processes Through Live Imaging
Manning, Lathiena; Starz-Gaiano, Michelle
Drosophila oogenesis provides many examples of essential processes in development. A myriad of genetic tools combined with recent advances in culturing egg chambers ex vivo has revealed several surprising mechanisms that govern how this tissue develops, and which could not have been determined in fixed tissues. Here we describe a straightforward protocol for dissecting ovaries, culturing egg chambers, and observing egg development in real time by fluorescent microscopy. This technique is suitable for observation of early- or late-stage egg development, and can be adapted to study a variety of cellular, molecular, or developmental processes. Ongoing analysis of oogenesis in living egg chambers has tremendous potential for discovery of new developmental mechanisms.
PMID: 26324430
ISSN: 1940-6029
CID: 2141612
Radiation Therapy Induces an Immunosuppressive Immune Infiltrate in a Murine Model of Invasive Pancreatic Cancer [Meeting Abstract]
Nguy, S; Tomkoetter, L; Alothman, S; Alqunaibit, D; Miller, G; Du, KL
ISI:000373215301888
ISSN: 1879-355x
CID: 2098042
CAPE (caffeic acid phenethyl ester) induces a mammary stem cell lineage restriction to a luminal phenotype via chromatin remodeling [Meeting Abstract]
Omene, Coral O; Patel, Manan; Kannan, Kasthuri; Heguy, Adriana; Barcellos-Hoff, Mary Helen
ISI:000371597103316
ISSN: 1538-7445
CID: 2064462
Tumor-entrained dendritic cells promote ICOS/ICOSL-dependent Th17-like responses in pancreatic adenocarcinoma [Meeting Abstract]
Barilla, Rocky M; Caso, Raul; Avanzi, Antonina; Panjwani, Anjlee; Zeng, Xiaopei L; Matthews, Steve; Tippens, Daniel M; Tomkoetter, Lena; Levie, Elliot M; Torres-Hemandez, Alejandro; Daley, Donnele; Miller, George
ISI:000371597101219
ISSN: 1538-7445
CID: 2064422
Induction of Achaete-Scute Homologue 1 (ASCL1) by Cigarette Smoke Condensate in A549 Cells [Meeting Abstract]
Lee, Michael H; Yie, Ting-An; Munger, John S; Tsay, Jun-Chieh J; Rom, William N
ISI:000370365102235
ISSN: 1556-1380
CID: 2064322
Gnetin C, a novel resveratrol dimer, targets pancreatic cancer metabolism [Meeting Abstract]
Narayanan, KNarayanan; Kunimasa, Kazuhiro; Tian, Di; Horton, Lori; Dolgaev, Igor; Heguy, Adriana; Miller, George; Tiwari, Amit; Narayanan, Bhagavathi A
ISI:000371263900136
ISSN: 1538-7445
CID: 2049232
Innate immune signaling in the pancreatic tumor microenvironment [Meeting Abstract]
Miller, George
ISI:000371263900177
ISSN: 1538-7445
CID: 2049082
Filamin A Mediates Wound Closure by Promoting Elastic Deformation and Maintenance of Tension in the Collagen Matrix [Comment]
Gurtner, Geoffrey C; Wong, Victor W
Fibroblasts have a central role in wound healing via matrix production, remodeling, and contraction. Their role as mechanoresponsive cells during tissue repair is evident, but the molecular mechanisms of this process remain uncertain. Filamin A, an intracellular protein that stabilizes the actin cytoskeleton regulates fibroblast-matrix interactions. Fibroblast defects in cytoskeletal dynamics may underlie key aspects of chronic wound pathophysiology.
PMID: 26548489
ISSN: 1523-1747
CID: 2033092
ALS/FTD Mutation-Induced Phase Transition of FUS Liquid Droplets and Reversible Hydrogels into Irreversible Hydrogels Impairs RNP Granule Function
Murakami, Tetsuro; Qamar, Seema; Lin, Julie Qiaojin; Schierle, Gabriele S Kaminski; Rees, Eric; Miyashita, Akinori; Costa, Ana R; Dodd, Roger B; Chan, Fiona T S; Michel, Claire H; Kronenberg-Versteeg, Deborah; Li, Yi; Yang, Seung-Pil; Wakutani, Yosuke; Meadows, William; Ferry, Rodylyn Rose; Dong, Liang; Tartaglia, Gian Gaetano; Favrin, Giorgio; Lin, Wen-Lang; Dickson, Dennis W; Zhen, Mei; Ron, David; Schmitt-Ulms, Gerold; Fraser, Paul E; Shneider, Neil A; Holt, Christine; Vendruscolo, Michele; Kaminski, Clemens F; St George-Hyslop, Peter
The mechanisms by which mutations in FUS and other RNA binding proteins cause ALS and FTD remain controversial. We propose a model in which low-complexity (LC) domains of FUS drive its physiologically reversible assembly into membrane-free, liquid droplet and hydrogel-like structures. ALS/FTD mutations in LC or non-LC domains induce further phase transition into poorly soluble fibrillar hydrogels distinct from conventional amyloids. These assemblies are necessary and sufficient for neurotoxicity in a C. elegans model of FUS-dependent neurodegeneration. They trap other ribonucleoprotein (RNP) granule components and disrupt RNP granule function. One consequence is impairment of new protein synthesis by cytoplasmic RNP granules in axon terminals, where RNP granules regulate local RNA metabolism and translation. Nuclear FUS granules may be similarly affected. Inhibiting formation of these fibrillar hydrogel assemblies mitigates neurotoxicity and suggests a potential therapeutic strategy that may also be applicable to ALS/FTD associated with mutations in other RNA binding proteins.
PMCID:4660210
PMID: 26526393
ISSN: 1097-4199
CID: 2039662