Contact-mediated cell-assisted cell proliferation in a model eukaryotic single-cell organism: An explanation for the lag phase in shaken cell culture

Franck, Carl; Ip, Wui; Bae, Albert; Franck, Nathan; Bogart, Elijah; Le, Thanhbinh Thi

doi:10.1103/physreve.77.041905

Cited by 4 publications

(23 citation statements)

References 15 publications

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“…The cells grown in suspensions have a broader size distribution ( Fig. 2a) than those on substrates, consistent with previous observations of cell clusters [18] and multinuclear cells [17], since the lack of solid substrate probably impedes cytokinesis. These are all counted as a single particle by automated counting (Fig.…”

Section: Resultssupporting

confidence: 90%

“…Next, we investigate the possibility that cells secrete a growth factor or a mitogen that serves as a synchronization signal. We analyzed the microfluidic experiments we performed previously [18] with cells grown on a substrate in a PDMS microfluidic device (Fig. 2c).…”

Section: Resultsmentioning

confidence: 99%

“…In these experiments the cells naturally adhered to the glass while fresh growth medium flowed above them with 0.6, 1.7 and 17 µm/s flow speeds. If the synchronization signal is a small signaling molecule with diffusion coefficient about 300 µm 2 /s, then these flow speeds correspond to Peclet numbers (see SI), quantifying the ratio of advective to diffusive transport, on the order of 0.4 (diffusion dominated), 1 and 10 (advection dominated), respectively [18].…”

Section: Resultsmentioning

confidence: 99%

“…There is evidence for quorum sensing factors [18], [25], growth factors and factors repressing cell proliferation in D. discoideum [26], [27], [28] and their potential role in synchronization remains to be determined. But, in fact, in our monoclonal experiments ( Fig.…”

Section: Discussionmentioning

confidence: 99%

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Spontaneous emergence of large-scale cell cycle synchronization in amoeba colonies

Šegota¹,

Boulet²,

Franck³

et al. 2014

Phys. Biol.

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Unicellular eukaryotic amoebae Dictyostelium discoideum are generally believed to grow in their vegetative state as single cells until starvation, when their collective aspect emerges and they differentiate to form a multicellular slime mold. While major efforts continue to be aimed at their starvation-induced social aspect, our understanding of population dynamics and cell cycle in the vegetative growth phase has remained incomplete. Here we show that cell populations grown on a substrate spontaneously synchronize their cell cycles within several hours. These collective population-wide cell cycle oscillations span millimeter length scales and can be completely suppressed by washing away putative cell-secreted signals, implying signaling by means of a diffusible growth factor or mitogen. These observations give strong evidence for collective proliferation behavior in the vegetative state.

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Section: Resultssupporting

confidence: 90%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Spontaneous emergence of large-scale cell cycle synchronization in amoeba colonies

Šegota¹,

Boulet²,

Franck³

et al. 2014

Phys. Biol.

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“…‫ء‬ indicates a P value of Ͻ0.05, ‫ءء‬ indicates a P value of Ͻ0.01, and ‫ءءء‬ indicates a P value of Ͻ0.001 (t test). (34), and at higher densities, high levels of accumulated endogenous AprA and CfaD can interfere with the assay. We measured the effect of rAprA and rCfaD at 18 h, as we have observed that culturing of cells with exogenous recombinant proteins past 24 h leads to degradation and/or ingestion of the recombinant proteins (our unpublished data).…”

Section: Figmentioning

confidence: 99%

A Retinoblastoma Orthologue Is Required for the Sensing of a Chalone in Dictyostelium discoideum

et al. 2014

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Retinoblastoma-like proteins regulate cell differentiation and inhibit cell proliferation. The Dictyostelium discoideum retinoblastoma orthologue RblA affects the differentiation of cells during multicellular development, but it is unclear whether RblA has a significant effect on Dictyostelium cell proliferation, which is inhibited by the secreted proteins AprA and CfaD. We found that rblA ؊ cells in shaking culture proliferate to a higher density, die faster after reaching stationary density, and, after starvation, have a lower spore viability than wild-type cells, possibly because in shaking culture, rblA ؊ cells have both increased cytokinesis and lower extracellular accumulation of CfaD. However, rblA ؊ cells have abnormally slow proliferation on bacterial lawns. Recombinant AprA inhibits the proliferation of wild-type cells but not that of rblA ؊ cells, whereas CfaD inhibits the proliferation of both wild-type cells and rblA ؊ cells. Similar to aprA ؊ cells, rblA ؊ cells have a normal mass and protein accumulation rate on a per-nucleus basis, indicating that RblA affects cell proliferation but not cell growth. AprA also functions as a chemorepellent, and RblA is required for proper AprA chemorepellent activity despite the fact that RblA does not affect cell speed. Together, our data indicate that an autocrine proliferation-inhibiting factor acts through RblA to regulate cell density in Dictyostelium, suggesting that such factors may signal through retinoblastoma-like proteins to control the sizes of structures such as developing organs or tumors.

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Confirmation and variability of the Allee effect in Dictyostelium discoideum cell populations, possible role of chemical signaling within cell clusters

Šegota¹,

Edwards²,

Campello³

et al. 2022

Phys. Biol.

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In studies of the unicellular eukaryote Dictyostelium discoideum, many have anecdotally observed that cell dilution below a certain "threshold density” causes cells to undergo a period of slow growth (lag). However, little is documented about the slow growth phase and the reason for different growth dynamics below and above this threshold density. In this paper, we extend and correct our earlier work to report an extensive set of experiments, including the use of new cell counting technology, that set this slow-to-fast growth transition on a much firmer biological basis. We show that dilution below a certain density (around 10E4 cells/ml) causes cells to grow slower on average and exhibit a large degree of variability: sometimes a sample does not lag at all, while sometimes it takes many moderate density cell cycle times to recover back to fast growth. We perform conditioned media experiments to demonstrate that a chemical signal mediates this endogenous phenomenon. Finally, we argue that while simple models involving fluid transport of signal molecules or cluster-based signaling explain typical behavior, they do not capture the high degree of variability between samples but nevertheless favor an intra-cluster mechanism.

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Contact-mediated cell-assisted cell proliferation in a model eukaryotic single-cell organism: An explanation for the lag phase in shaken cell culture

Cited by 4 publications

References 15 publications

Spontaneous emergence of large-scale cell cycle synchronization in amoeba colonies

Spontaneous emergence of large-scale cell cycle synchronization in amoeba colonies

A Retinoblastoma Orthologue Is Required for the Sensing of a Chalone in Dictyostelium discoideum

Confirmation and variability of the Allee effect in Dictyostelium discoideum cell populations, possible role of chemical signaling within cell clusters

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