A noble extended stochastic logistic model for cell proliferation with density-dependent parameters

2021 ◽  
Author(s):  
Trina Roy ◽  
Sinchan Ghosh ◽  
Bapi Saha ◽  
Sabyasachi Bhattacharya
Keyword(s):  
Cell Proliferation ◽  
Cell Density ◽  
Negative Feedback ◽  
Deterministic Model ◽  
Culture Media ◽  
Logistic Growth ◽  
Density Dependent ◽  
Proposed Model ◽  
Dependent Cell ◽  
Growth Inhibiting

Abstract Cell proliferation often experiences a density-dependent intrinsic proliferation rate (IPR) and negative feedback from growth-inhibiting molecules in culture media. The lack of flexible models with explanatory parameters fails to capture such a proliferation mechanism. We propose an extended logistic growth law with the density-dependent IPR and additional negative feedback. The extended parameters of the proposed model can be interpreted as density-dependent cell-cell cooperation and negative feedback on cell proliferation. Moreover, we incorporate further density regulation for flexibility in the model through environmental resistance on cells. The proposed growth law has similarities with the strong Allee model and harvesting phenomenon. We also develop the stochastic analog of the deterministic model by representing possible heterogeneity in growth-inhibiting molecules and environmental perturbation of the culture setup as correlated multiplicative and additive noises. The model provides a maximum sustainable stable cell density (MSSCD) and a new fitness measure for proliferative cells. The proposed model shows superiority to the logistic law after fitting to real cell culture datasets. We illustrate both MSSCD and the new cell fitness for a range of parameters. The cell density distributions reveal the chance of overproliferation, underproliferation, or decay for different parameter sets under the deterministic and stochastic setups.

scholarly journals A new mitochondrial pool of cyclin E, regulated by Drp1, is linked to cell-density-dependent cell proliferation

2015 ◽  
Vol 128 (22) ◽  
pp. 4171-4182 ◽  
Author(s):  
D. J. Parker ◽  
A. Iyer ◽  
S. Shah ◽  
A. Moran ◽  
A. B. Hjelmeland ◽  
...  
Keyword(s):  
Cell Proliferation ◽  
Cell Density ◽  
Cyclin E ◽  
Density Dependent ◽  
Dependent Cell

Reduction of the rate of outgrowth, cell density, and cell division following removal of the apical ectodermal ridge of the chick limb-bud

Development ◽  
1977 ◽  
Vol 40 (1) ◽  
pp. 1-21
Author(s):  
Dennis Summerbell
Keyword(s):  
Cell Proliferation ◽  
Cell Death ◽  
Cell Division ◽  
Cell Density ◽  
Apical Ectodermal Ridge ◽  
Limb Bud ◽  
Short Term ◽  
Density Dependent ◽  
Wing Bud

Removal of the apical ectodermal ridge causes a reduction in the rate of outgrowth of the wing-bud and the loss of distal parts. More specifically it causes a short-term increase in cell density and cell death and a decrease in the rate of cell proliferation. The evidence supports the hypothesis of density-dependent control of cell division and suggests that there may also be a mechanism regulating skeletal length at the time of differentiation. An informal model is presented to explain the observations.

scholarly journals Cell proliferation and cell density of mesenchyme in the maxillary process and adjacent regions during facial development in the chick embryo

Development ◽  
1978 ◽  
Vol 46 (1) ◽  
pp. 65-74
Author(s):  
Robert Minkoff ◽  
Amy J. Kuntz
Keyword(s):  
Cell Proliferation ◽  
Cell Density ◽  
Regulatory Mechanism ◽  
Satisfactory Explanation ◽  
Density Dependent ◽  
Dna Labeling ◽  
Inhibition Of Growth ◽  
Developmental Age ◽  
Dependent Inhibition ◽  
Facial Development

Cell proliferation, as measured by DNA labeling indices was analyzed during the early development of the maxillary process. Chick embryos were labeled with [3H]thymidine for .1 h and processed for autoradiography. The percentage of labeled mesenchymal cells was determined within delineated areas in the maxillary processes and in adjacent regions. Analysis of labeling indices in each of the areas at successive stages of development demonstrated a pattern of declining rates of cell proliferation with advancing developmental age. Cell proliferation in adjacent regions declined earlier and, in some instances, faster than it did in the maxillary process. Cell density was measured in the maxillary process and the roof of the stomodeum and was found to be higher in the maxillary process throughout the period studied. Cell density and cell proliferation data were analyzed with reference to the operation of ‘density-dependent inhibition’ of growth as a regulatory mechanism for the observed changes. ‘Density-dependent inhibition’ of growth was not a satisfactory explanation for the observed differences between the maxillary process and adjacent regions.

scholarly journals Cell density-dependent acetylation of ΔNp63α is associated with p53-dependent cell cycle arrest

FEBS Letters ◽  
2012 ◽  
Vol 586 (8) ◽  
pp. 1128-1134 ◽  
Author(s):  
Yang-Seok Chae ◽  
Hyunji Kim ◽  
Dongsung Kim ◽  
Hyunsook Lee ◽  
Hae-ock Lee
Keyword(s):  
Cell Cycle ◽  
Cell Cycle Arrest ◽  
Cell Density ◽  
Density Dependent ◽  
Cycle Arrest ◽  
Dependent Cell

Modulation effects of hexamethylene bisacetamide on growth and differentiation of cultured human malignant glioma cells

1996 ◽  
Vol 84 (5) ◽  
pp. 831-838 ◽  
Author(s):  
Xiao-Nan Li ◽  
Zi-Wei Du ◽  
Qiang Huang
Keyword(s):  
Cell Cycle ◽  
Cell Proliferation ◽  
Malignant Glioma ◽  
Culture Media ◽  
Morphological Changes ◽  
Control Group ◽  
Cell Cycle Distribution ◽  
Content Type ◽  
Hexamethylene Bisacetamide ◽  
Human Malignant Glioma

✓ The modulation effects of hexamethylene bisacetamide (HMBA), a differentiation-inducing agent, on growth and differentiation of cells from human malignant glioma cell line SHG-44 were studied. At cytostatic doses (2.5 mM, 5 mM, 7.5 mM, and 10 mM for 15 days), HMBA exerted a marked inhibitory effect on cell proliferation. Exposure to HMBA (5 mM and 10 mM for 12 days) also resulted in an accumulation of cells in G0/G1 phase and a decrease of cells in S phase as analyzed by flow cytometry. The reversible effects of 7.5 mM HMBA and 10 mM HMBA on cell proliferation and 10 mM HMBA on disruption of cell cycle distribution were observed when HMBA was removed from culture media on Day 6 and replaced with HMBA-free media. Colony-forming efficiency (CFE) in soft agar was remarkably decreased by HMBA (2.5 mM, 5 mM, 7.5 mM, and 10 mM for 14 days), and in 7.5 mM HMBA— and 10 mM HMBA—treated cells, the CFEs were reduced to 25% and 12.5%, respectively, of that in untreated cells. Cells treated with HMBA (5 mM and 10 mM for 15 days) remained tumorigenic in athymic nude mice, but the growth rates of the xenografts were much slower than those in the control group. The effects of HMBA on cell proliferation, cell cycle distribution, CFE, and growth of xenografts were dose dependent. A more mature phenotype was confirmed by the morphological changes from spindle shape to large polygonal stellate shape and remarkably elevated expression of glial fibrillary acidic protein in cells exposed to HMBA (5 mM, 10 mM for 15 days). Our results showed that a more differentiated phenotype with marked growth arrest was induced in SHG-44 cells by HMBA.

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