Your search keyword '"Cell kinetics"' showing total 54 results

1. Methods for Inferring Cell Cycle Parameters Using Thymidine Analogues.

Author

Martí-Clúa, Joaquín

Subjects

*THYMIDINE, *CELL cycle, *CELL growth, *MICROSCOPY, *ELECTRON microscopy

Abstract

Simple Summary: Several procedures have been developed to infer cell-cycle time and the duration of the cycle phases, including tritiated thymidine autoradiography and the immunodetection of thymidine analogues after their incorporation into replicating DNA. These methods have supplied important insights to reveal, on fixed tissue sections and using light or electron microscopy, the proliferative behavior of different cell types under different experimental contexts. Thymidine analogous labeling has provided knowledge about cell growth kinetics that would never have been obtained by histological methods alone. Tritiated thymidine autoradiography, 5-bromo-2′-deoxyuridine (BrdU) 5-chloro-2′-deoxyuridine (CldU), 5-iodo-2′-deoxyuridine (IdU), and 5-ethynyl-2′-deoxyiridine (EdU) labeling have been used for identifying the fraction of cells undergoing the S-phase of the cell cycle and to follow the fate of these cells during the embryonic, perinatal, and adult life in several species of vertebrate. In this current review, I will discuss the dosage and times of exposition to the aforementioned thymidine analogues to label most of the cells undergoing the S-phase of the cell cycle. I will also show how to infer, in an asynchronous cell population, the duration of the G1, S, and G2 phases, as well as the growth fraction and the span of the whole cell cycle on the base of some labeling schemes involving a single administration, continuous nucleotide analogue delivery, and double labeling with two thymidine analogues. In this context, the choice of the optimal dose of BrdU, CldU, IdU, and EdU to label S-phase cells is a pivotal aspect to produce neither cytotoxic effects nor alter cell cycle progression. I hope that the information presented in this review can be of use as a reference for researchers involved in the genesis of tissues and organs. [ABSTRACT FROM AUTHOR]

Published

2023

2. Cell Proliferation Indices in Regenerating Alitta virens (Annelida, Errantia).

Author

Shalaeva, Alexandra Y. and Kozin, Vitaly V.

Subjects

*CELL proliferation, *REGENERATION (Biology), *ANNELIDA, *CELL populations, *CELL cycle

Abstract

In recent years, interest in the possible molecular regulators of cell proliferation and differentiation in a wide range of regeneration models has grown significantly, but the cell kinetics of this process remain largely a mystery. Here we try to elucidate the cellular aspects of regeneration by EdU incorporation in intact and posteriorly amputated annelid Alitta virens using quantitative analysis. We found that the main mechanism of blastema formation in A. virens is local dedifferentiation; mitotically active cells of intact segments do not significantly contribute to the blastemal cellular sources. Amputation-induced proliferation occurred predominantly within the epidermal and intestinal epithelium, as well as wound-adjacent muscle fibers, where clusters of cells at the same stage of the cell cycle were found. The resulting regenerative bud had zones of high proliferative activity and consisted of a heterogeneous population of cells that differed in their anterior–posterior positions and in their cell cycle parameters. The data presented allowed for the quantification of cell proliferation in the context of annelid regeneration for the first time. Regenerative cells showed an unprecedentedly high cycle rate and an exceptionally large growth fraction, making this regeneration model especially valuable for studying coordinated cell cycle entry in vivo in response to injury. [ABSTRACT FROM AUTHOR]

Published

2023

3. Heterogeneous distribution of mature olfactory sensory neurons in human olfactory epithelium.

Author

Omura, Kazuhiro, Han, Bing, Nishijima, Hironobu, Aoki, Satoshi, Ebihara, Teru, Kondo, Kenji, Otori, Nobuyoshi, Kojima, Hiromi, Yamasoba, Tatsuya, and Kikuta, Shu

Subjects

*SENSORY neurons, *EPITHELIUM, *NASAL septum, *SMELL disorders, *ENDOSCOPIC surgery

Abstract

Background: The olfactory cleft (OC) comprising the olfactory epithelium (OE) is the most important anatomical location for olfactory function. Endoscopic sinus surgery (ESS) is used to treat diseases related to the OC and improve olfactory dysfunction. However, iatrogenic OE injury occasionally occurs. Comprehensive knowledge of the olfactory region is required to avoid damage to the OE during endoscopic procedures. Methods: Immunohistochemistry was performed on olfactory mucosa obtained from the unaffected side of olfactory neuroblastoma surgical specimens. The OE was defined as the epithelium containing mature olfactory sensory neurons (OSNs). The distribution and cell kinetics of the OE were examined. Results: The OE was selectively localized to the anterior two‐thirds of the superior turbinate (ST) and in the nasal septum (NS) just opposite to the ST; the OE was not detected within the mucosa of the superior meatus. The density of mature OSNs was high at the ethmoid tegmen but gradually decreased with distance from the ethmoid tegmen. The extent of cell death and proliferation was relatively even across the OE. Analysis of airflow profiles revealed that resection of inferior ST does not decrease airflow to the OC. Conclusion: The results indicate that the distribution and degree of differentiation of mature OSNs are heterogenous throughout the OE. Epithelial resection of the anterior or superior ST has the potential to damage olfactory function. Resection of the inferior or posterior ST or widening of the superior meatus is a safer alternative that does not damage mature OSNs or alter airflow to the OC. [ABSTRACT FROM AUTHOR]

Published

2022

4. Cell Kinetics in the Adult Neurogenic Niche and Impact of Diet-Induced Accelerated Aging.

Author

Stankiewicz, Alexander J., Mortazavi, Farzad, Kharchenko, Peter V., McGowan, Erin M., Kharchenko, Vasili, and Zhdanova, Irina V.

Subjects

*NEURAL stem cells, *DNA replication, *NEUROPLASTICITY, *CELL analysis

Abstract

Neurogenesis in the adult brain, a powerful mechanism for neuronal plasticity and brain repair, is altered by aging and pathological conditions, including metabolic disorders. The search for mechanisms and therapeutic solutions to alter neurogenesis requires understanding of cell kinetics within neurogenic niches using a high-throughput quantitative approach. The challenge is in the dynamic nature of the process and multiple cell types involved, each having several potential modes of division or cell fate. Here we show that cell kinetics can be revealed through a combination of the BrdU/EdU pulse-chase, based on the circadian pattern of DNA replication, and a differential equations model that describes time-dependent cell densities. The model is validated through the analysis of cell kinetics in the cerebellar neurogenic niche of normal young adult male zebrafish, with cells quantified in 2D (sections), and with neuronal fate and reactivation of stem cells confirmed in 3D whole-brain images (CLARITY). We then reveal complex alterations in cell kinetics associated with accelerated aging due to chronic high caloric intake. Low activity of neuronal stem cells in this condition persists 2 months after reverting to normal diet, and is accompanied by overproduction of transient amplifying cells, their accelerated cell death, and slow migration of postmitotic progeny. This combined experimental and mathematical approach should allow for relatively high-throughput analysis of early signs of pathological and age-related changes in neurogenesis, evaluation of specific therapeutic targets, and drug efficacy. [ABSTRACT FROM AUTHOR]

Published

2019

5. Functional anatomy of the hair follicle: The Secondary Hair Germ.

Author

Panteleyev, Andrey A.

Subjects

*HAIR follicles, *HAIR growth, *MORPHOGENESIS, *CELL populations, *STEM cells

Abstract

Abstract: The secondary hair germ (SHG)—a transitory structure in the lower portion of the mouse telogen hair follicle (HF)—is directly involved in anagen induction and eventual HF regrowth. Some crucial aspects of SHG functioning and ontogenetic relations with other HF parts, however, remain undefined. According to recent evidence (in contrast to previous bulge‐centric views), the SHG is the primary target of anagen‐inducing signalling and a source of both the outer root sheath (ORS) and ascending HF layers during the initial (morphogenetic) anagen subphase. The SHG is comprised of two functionally distinct cell populations. Its lower portion (originating from lower HF cells that survived catagen) forms all ascending HF layers, while the upper SHG (formed by bulge‐derived cells) builds up the ORS. The predetermination of SHG cells to a specific morphogenetic fate contradicts their attribution to the “stem cell” category and supports SHG designation as a “germinative” or a “founder” cell population. The mechanisms of this predetermination driving transition of the SHG from “refractory” to the “competent” state during the telogen remain unknown. Functionally, the SHG serves as a barrier, protecting the quiescent bulge stem cell niche from the extensive follicular papilla/SHG signalling milieu. The formation of the SHG is a prerequisite for efficient “precommitment” of these cells and provides for easier sensing and a faster response to anagen‐inducing signals. In general, the formation of the SHG is an evolutionary adaptation, which allowed the ancestors of modern Muridae to acquire a specific, highly synchronized pattern of hair cycling. [ABSTRACT FROM AUTHOR]

Published

2018

6. Time Inhomogeneous Mutation Models with Birth Date Dependence.

Author

Mazoyer, Adrien

Subjects

*BRANCHING processes, *GENERATING functions, *GENETIC mutation, *CELL death, *INTEGRAL equations

Abstract

The classic Luria-Delbrück model for fluctuation analysis is extended to the case where the split instant distributions of cells are not i.i.d.: the lifetime of each cell is assumed to depend on its birth date. This model takes also into account cell deaths and non-exponentially distributed lifetimes. In particular, it is possible to consider subprobability distributions and to model non-exponential growth. The extended model leads to a family of probability distributions which depend on the expected number of mutations, the death probability of mutant cells, and the split instant distributions of normal and mutant cells. This is deduced from the Bellman-Harris integral equation, written for the birth date inhomogeneous case. A new theorem of convergence for the final mutant counts is proved, using an analytic method. Particular examples like the Haldane model or the case where hazard functions of the split-instant distributions are proportional are studied. The Luria-Delbrück distribution with cell deaths is recovered. A computation algorithm for the probabilities is provided. [ABSTRACT FROM AUTHOR]

Published

2017

7. CELL-KINETICS BASED CALIBRATION OF A MULTISCALE MODEL OF STRUCTURED CELL POPULATIONS IN OVARIAN FOLLICLES.

Author

AYMARD, B., CLÉMENT, F., MONNIAUX, D., and POSTEL, M.

Subjects

*OVARIAN follicle, *CELL populations, *CYTOLOGY, *MULTISCALE modeling, *COHORT analysis

Abstract

In this paper, we present a strategy for tuning the parameters of a multiscale model of structured cell populations in which physiological mechanisms are embedded into the cell scale. This strategy allows one to cope with the technical difficulties raised by such models that arise from their anchorage in cell biology concepts: localized mitosis, progression within and out of the cell cycle driven by time- and possibly unknown-dependent and nonsmooth velocity coefficients. We compute different mesoscopic and macroscopic quantities from the microscopic unknowns (cell densities) and relate them to experimental cell kinetic indexes. We study the expression of reaching times corresponding to characteristic cellular transitions in a particle-like reduction of the original model. We make use of this framework to obtain an appropriate initial guess for the parameters and then perform a sequence of optimization steps subject to quantitative specifications. We finally illustrate realistic simulations of the cell populations in cohorts of interacting ovarian follicles. [ABSTRACT FROM AUTHOR]

Published

2016

8. Multiscale mathematical modeling of the hypothalamo-pituitary-gonadal axis.

Author

Clément, Frédérique

Subjects

*HYPOTHALAMIC-pituitary-adrenal axis, *REPRODUCTION, *CIRCADIAN rhythms, *CELL physiology, *CELL proliferation, *CELL differentiation, *MATHEMATICAL models

Abstract

Although the fields of systems and integrative biology are in full expansion, few teams are involved worldwide into the study of reproductive function from the mathematical modeling viewpoint. This may be due to the fact that the reproductive function is not compulsory for individual organism survival, even if it is for species survival. Alternatively, the complexity of reproductive physiology may be discouraging. Indeed, the hypothalamo-pituitary-gonadal (HPG) axis involves not only several organs and tissues but also intricate time (from the neuronal millisecond timescale to circannual rhythmicity) and space (from molecules to organs) scales. Yet, mathematical modeling, and especially multiscale modeling, can renew our approaches of the molecular, cellular, and physiological processes underlying the control of reproductive functions. In turn, the remarkable dynamic features exhibited by the HPG axis raise intriguing and challenging questions to modelers and applied mathematicians. In this article, we draw a panoramic review of some mathematical models designed in the framework of the female HPG, with a special focus on the gonadal and central control of follicular development. On the gonadal side, the modeling of follicular development calls to the generic formalism of structured cell populations, that allows one to make mechanistic links between the control of cell fate (proliferation, differentiation, or apoptosis) and that of the follicle fate (ovulation or degeneration) or to investigate how the functional interactions between the oocyte and its surrounding cells shape the follicle morphogenesis. On the central, mainly hypothalamic side, models based on dynamical systems with multiple timescales allow one to represent within a single framework both the pulsatile and surge patterns of the neurohormone GnRH. Beyond their interest in basic research investigations, mathematical models can also be at the source of useful tools to study the encoding and decoding of the (neuro-) hormonal signals at play within the HPG axis and detect complex, possibly hidden rhythms, in experimental time series. [ABSTRACT FROM AUTHOR]

Published

2016

9. Synthesis and anti-cancer potential of the positional isomers of NOSH-aspirin (NBS-1120) a dual nitric oxide and hydrogen sulfide releasing hybrid.

Author

Vannini, Federica, MacKessack-Leitch, Andrew C., Eschbach, Erin K., Chattopadhyay, Mitali, Kodela, Ravinder, and Kashfi, Khosrow

Subjects

*DRUG synthesis, *ANTINEOPLASTIC agents, *DRUG synergism, *STRUCTURAL isomers, *NITRIC oxide analysis, *HYDROGEN sulfide, *ASPIRIN

Abstract

We recently reported the synthesis of NOSH-aspirin, a novel hybrid compound capable of releasing both nitric oxide (NO) and hydrogen sulfide (H 2 S). In NOSH-aspirin, the two moieties that release NO and H 2 S are covalently linked at the 1, 2 positions of acetyl salicylic acid, i.e., ortho -NOSH-aspirin. Here we report on the synthesis of meta - and para -NOSH-aspirins. We also made a head-to-head evaluation of the effects of these three positional isomers of NOSH-aspirin on colon cancer cell kinetics and induction of reactive oxygen species, which in recent years has emerged as a key event in causing cancer cell regression. Electron donating/withdrawing groups incorporated about the benzoate moiety significantly affected the potency of these compounds with respect to colon cancer cell growth inhibition. [ABSTRACT FROM AUTHOR]

Published

2015

10. Stochastic modeling of stress erythropoiesis using a two-type age-dependent branching process with immigration.

Author

Hyrien, O., Peslak, S., Yanev, N., and Palis, J.

Subjects

*ERYTHROPOIESIS, *STOCHASTIC models, *BRANCHING processes, *RADIATION injuries, *ERYTHROCYTE membranes, *CELL migration

Abstract

The erythroid lineage is a particularly sensitive target of radiation injury. We model the dynamics of immature (BFU-E) and mature (CFU-E) erythroid progenitors, which have markedly different kinetics of recovery, following sublethal total body irradiation using a two-type reducible age-dependent branching process with immigration. Properties of the expectation and variance of the frequencies of both types of progenitors are presented. Their explicit expressions are derived when the process is Markovian, and their asymptotic behavior is identified in the age-dependent (non-Markovian) case. Analysis of experimental data on the kinetics of BFU-E and CFU-E reveals that the probability of self-renewal increases transiently for both cell types following sublethal irradiation. In addition, the probability of self-renewal increased more for CFU-E than for BFU-E. The strategy adopted by the erythroid lineage ensures replenishment of the BFU-E compartment while optimizing the rate of CFU-E recovery. Finally, our analysis also indicates that radiation exposure causes a delay in BFU-E recovery consistent with injury to the hematopoietic stem/progenitor cell compartment that give rise to BFU-E. Erythroid progenitor self-renewal is thus an integral component of the recovery of the erythron in response to stress. [ABSTRACT FROM AUTHOR]

Published

2015

11. Multiscale modelling of ovarian follicular selection.

Author

Clément, Frédérique and Monniaux, Danielle

Subjects

*OVARIAN atresia, *GONADOTROPIN, *HYPOTHALAMIC hormones, *CONSERVATION biology, *CELL populations, *OVARIAN follicle, *CELL growth

Abstract

Abstract: In mammals, the number of ovulations at each ovarian cycle is determined during the terminal phase of follicular development by a tightly controlled follicle selection process. The mechanisms underlying follicle selection take place on different scales and different levels of the gonadotropic axis. These include the endocrine loops between the ovary and the hypothalamic-pituitary complex, the dynamics of follicle populations within the ovary and the dynamics of cell populations within ovarian follicles. A compartmental modelling approach was first designed to describe the cell dynamics in the selected follicle. It laid the basis for a multiscale model formulated with partial differential equations of conservation law type, resulting in the structuring of the follicular cell populations according to cell age and cell maturity. In this model, the selection occurs as a FSH (follicle stimulating hormone)-driven competition between simultaneously developing follicles. The selection output (mono-ovulation, poly-ovulation or anovulation) results from a subtle interplay between the hypothalamus, the pituitary gland and the ovaries, combined with slight differences in the initial conditions or ageing and maturation velocities of the competing follicles. This modelling approach is proposed as a useful complement to experimental studies of follicular development and in turn, the mechanisms of follicle selection raise challenging questions on the mathematical ground. [Copyright &y& Elsevier]

Published

2013

12. Immunohistochemical Expression of PCNA in Epithelial Linings of Selected Odontogenic Lesions.

Author

SHAHELA, TANVEER, AESHA, SYEDA, RANGANATHAN, KANNAN, ROOBAN, T., UMA DEVI ROA, K., JOSHUA, ELIZABETH, AHMED, AFROZ SYED, and CHITTAMSETTY, HARIKA

Subjects

*PROLIFERATING cell nuclear antigen, *EPITHELIAL cells, *ODONTOGENIC cysts, *AMELOBLASTOMA, *CANCER cell proliferation

Abstract

Aim: Though odontogenic lesions have in common origin from the primitive odontogenic epithelium , there is a diversity in their initiation behavior and growth. The aggressive nature of odontogenic keratocyst similar to ameloblastoma in comparision with the other common odontogenic (dentigerous and radicular) cyst could be due to possible differences in their epithelial linings. PCNA (Proliferating cell nuclear antigen) is a cell cycle related antigen, used in the study of cell kinetics of these epithelial linings, to corelate the biological behaviour among these common odontogenic lesions. Objectives: This paper has intended to study the cell kinetics of 4 selected odontogenic lesions (dentigerous cyst, radicular cyst,odontogenic keratocyst and ameloblastoma) to demonstrate differences in their epithelial linings. Material and Methods: Sixty samples of paraffin embedded tissue specimens (archival tissues) were included (15 radicularcysts, 15 odontogenic keratocysts; 15 dentigerous cysts and15 Ameloblastoma. Results: Among cyst OKC had higher values than DC and RC. When staining results of all the cyst were compared individually with ameloblastoma ,the staining results of OKC was similar to ameloblastoma ,and ameloblastoma presented higher values than OKC (p=0.000). Conclusion: The results of this study show 1) Though OKC and DC are developmental in origin and radicular cyst is inflammatory, OKC has intrinsic growth potential among these cyst 2). Ameloblastoma has similar proliferative potential as OKC and hence it has been reinforced as KCOT(Keratocystic odontogenic tumour) in the recent classification. [ABSTRACT FROM AUTHOR]

Published

2013

13. Computational Modeling of Cellular Effects Post-Irradiation with Low- and High-Let Particles and Different Absorbed Doses.

Author

Tavares, Adriana Alexandre S. and Tavares, João Manuel R. S.

Subjects

*COMPUTER simulation, *IRRADIATION, *PARAMETER estimation, *CANCER radiotherapy, *DOSE-response relationship in biochemistry, *HEALTH outcome assessment, *RADIOBIOLOGY

Abstract

The use of computational methods to improve the understanding of biological responses to various types of radiation is an approach where multiple parameters can be modelled and a variety of data is generated. This study compares cellular effects modelled for low absorbed doses against high absorbed doses. The authors hypothesized that low and high absorbed doses would contribute to cell killing via different mechanisms, potentially impacting on targeted tumour radiotherapy outcomes. Cellular kinetics following irradiation with selective low- and high-linear energy transfer (LET) particles were investigated using the Virtual Cell (VC) radiobiology algorithm. Two different cell types were assessed using the VC radiobiology algorithm: human fibroblasts and human crypt cells. The results showed that at lower doses (0.01 to 0.2 Gy), all radiation sources used were equally able to induce cell death (p>0.05, ANOVA). On the other hand, at higher doses (1.0 to 8.0 Gy), the radiation response was LET and dose dependent (p<0.05, ANOVA). The data obtained suggests that the computational methods used might provide some insight into the cellular effects following irradiation. The results also suggest that it may be necessary to re-evaluate cellular radiation-induced effects, particularly at low doses that could affect therapeutic effectiveness. [ABSTRACT FROM AUTHOR]

Published

2013

14. Asymptotic Behavior of Cell Populations Described by Two-Type Reducible Age-Dependent Branching Processes With Non-Homogeneous Immigration.

Author

HYRIEN, OLLIVIER and YANEV, NIKOLAYM.

Subjects

*CELL populations, *TISSUES, *STEM cell research, *PROGENITOR cells, *POISSON processes, *MARKOV processes

Abstract

Stem and precursor cells play a critical role in tissue development, maintenance, and repair throughout the life. Often, experimental limitations prevent direct observation of the stem cell compartment, thereby posing substantial challenges to the analysis of such cellular systems. Two-type age-dependent branching processes with immigration are proposed to model populations of progenitor cells and their differentiated progenies. Immigration of cells into the pool of progenitor cells is formulated as a non-homogeneous Poisson process. The asymptotic behavior of the process is governed by the largest of two Malthusian parameters associated with embedded Bellman-Harris processes. Asymptotic approximations to the expectations of the total cell counts are improved by Markov compensators. [ABSTRACT FROM AUTHOR]

Published

2012

15. Multiscale estimation of cell kinetics.

Author

Jean, Larry W., Suchorolski, Martin T., Jihyoun Jeon, and Luebeck, E. Georg

Subjects

*CELL physiology, *CELL proliferation, *NEOPLASTICISM (Art movement), *CELL populations, *CLONING, *GENETIC mutation, *CLONE cells

Abstract

We introduce a methodology based on the Luria-Delbruck fluctuation model for estimating the cell kinetics of clonally expanding populations. In particular, this approach allows estimation of the net cell proliferation rate, the extinction coefficient and the initial (viable) population size. We present a systematic approach based on spatial partitioning, which captures the local fluctuations of the number and sizes of individual clones. However, partitioning introduces measurement error by inflating the number of clones, which is dependent on time and the degree of cell migration. We perform various in silico experiments to explore the properties of the estimators and we show that there exists a direct relationship between precision and observation time. We also explore the trade-off between the measurement error and the estimation accuracy. By exploring different scales of cellular fluctuations, from the entire population down to those of individual clones, we show that this methodology is useful for inferring important parameters in neoplastic progression. [ABSTRACT FROM AUTHOR]

Published

2010

16. Saddlepoint Approximations to the Moments of Multitype Age-Dependent Branching Processes, with Applications.

Author

Hyrien, O., Chen, R., Mayer-Pröschel, M., and Noble, M.

Subjects

*METHOD of steepest descent (Numerical analysis), *APPROXIMATION theory, *ANALYSIS of variance, *SIMULATION methods & models, *DENDRITIC cells, *CYTOLOGY, *STOCHASTIC processes

Abstract

This article proposes saddlepoint approximations to the expectation and variance–covariance function of multitype age-dependent branching processes. The proposed approximations are found accurate, easy to implement, and much faster to compute than by simulating the process. Multiple applications are presented, including the analyses of clonal data on the generation of oligodendrocytes from their immediate progenitor cells, and on the proliferation of Hela cells. New estimators are also constructed to analyze clonal data. The proposed methods are finally used to approximate the distribution of the generation, which has recently found several applications in cell biology. [ABSTRACT FROM AUTHOR]

Published

2010

17. Two-compartment model interacting with proliferating regulatory factor

Author

Feizabadi, Mitra Shojania and Carbonara, Joaquin

Subjects

*ALGEBRAIC curves, *MATHEMATICAL models, *MATHEMATICAL analysis, *EVOLUTION equations, *DIFFERENTIAL equations

Abstract

Abstract: In this short work, by combining the total cell evolution curve and the two-compartment model, the evolution of one of the subpopulations is simulated while the system interacts with a proliferating regulatory factor. [Copyright &y& Elsevier]

Published

2010

18. DNA DAMAGE AND THE GOVERNING DYNAMICS OF STEM CELL RADIOBIOLOGY.

Author

Tomuleasa, C. I., Foris, V., Soriţãu, Olga, Páll, Emöke, Dicu, T., Lung-Illes, V., Brie, Ioana, and Kacsó, G.

Subjects

*DNA damage, *STEM cells, *RADIOBIOLOGY, *PARKINSON'S disease, *IONIZING radiation, *RADIOTHERAPY

Abstract

Stem cells are undifferentiated cells that are defined by their ability to both self-renew and to differentiate in order to produce mature progeny cells, including both non-renewing progenitors and terminally differentiated effector cells. Human mesenchymal stem cells can potentially be used in therapy in a variety of conditions on the basis of their demonstrated efficiency in animal models of human diseases, varying from Parkinson's disease to neoplasia. Given that ionizing radiation is a crucial and widespread diagnostic and therapeutic tool in oncology, it is important to investigate further the factors and mechanisms that underlie stem cell radiosensitivity. The study uses human mesenchymal stem cells, characterized using monoclonal antibodies and cultured in complex osteogenic medium after being irradiated at 0.5 Gy, 1 Gy, 2 Gy and 4 Gy using a 60Co source. Genetic alterations and DNA repair were evaluated using the Alkaline comet assay. Osteogenic differentiation was confirmed by histology stainings (Alizarin Red S, Alcian Blue and von Kossa) and cell proliferation assesed using the MTT based proliferation assay. Our research team challenges current knowledge by investigating the effects of ionizing radiation on stem cells in culture, focusing on the importance of DNA damage and stem cell kinetics in oncology and radiotherapy. [ABSTRACT FROM AUTHOR]

Published

2009

19. Cell kinetics of the marine sponge Halisarca caerulea reveal rapid cell turnover and shedding.

Author

De Goeij, J. M., De Kluijver, A., Van DuyI, F C., Vacelet, J., Wijttels, R. H., De Goeij, A. F. P. M., Cleutjens, J. P. M., and Schutte, B.

Subjects

*SPONGES (Invertebrates), *DYNAMICS, *CELL cycle, *APOPTOSIS, *CORAL reef biology, *UNICELLULAR organisms, *MORPHOLOGY, *HISTOCHEMISTRY

Abstract

This study reveals the peculiar in vivo cell kinetics and cell turnover of the marine sponge Halisarca caerulea under steady-state conditions. The tropical coral reef sponge shows an extremely high proliferation activity, a short cell cycle duration and massive cell shedding. Cell turnover is predominantly confined to a single cell population, i.e. the choanocytes, and in this process apoptosis only plays a minor role. To our knowledge, such fast cell kinetics under steady-state conditions, with high turnover by shedding in the absence of apoptosis, has not been observed previously in any other multicellular organism. The duration of the cell cycle in vivo resembles that of unicellular organisms in culture. Morphological and histochemical studies demonstrate compartmentalization of choanocytes in the sponge tissue, which corresponds well with its remarkable cellular kinetics. Coral reef cavity sponges, like H. caerulea, inhabit low nutrient tropical waters, forcing these organisms to filter large volumes of water and to capture the few nutrients efficiently. Under these oligotrophic conditions, a high cell turnover may be considered as a very useful strategy, preventing permanent damage to the sponge by environmental stress. HaIisarca caerulea maintains its body mass and keeps its food uptake system up to date by constantly renewing its filter system. We conclude that studies on cell kinetics and functional morphology provide new and essential information on the growth characteristics and the regulation of sponge growth in vivo as well as in vitro and the role of choanocytes in tissue homeostasis. [ABSTRACT FROM AUTHOR]

Published

2009

20. A two-compartment model interacting with dynamic drugs

Author

Feizabadi, Mitra Shojania, Volk, Christina, and Hirschbeck, Sarah

Subjects

*MATHEMATICAL models, *ANTIMITOTIC agents, *ANTINEOPLASTIC agents, *CELL proliferation, *MATHEMATICAL analysis

Abstract

Abstract: By combining the total cell evolution curve and a two-compartment model interacting with dynamic anti-cancer agents, the evolution of subpopulations has been analytically obtained and investigated in this work. [Copyright &y& Elsevier]

Published

2009

21. Aberrant crypt foci: endoscopic assessment and cell kinetics characterization.

Author

Figueiredo, Pedro, Donato, Maria, Urbano, Marta, Goulão, Helena, Gouveia, Hermano, Sofia, Carlos, Leitão, Maximino, and Freitas, Diniz

Subjects

*PRECANCEROUS conditions, *COLON cancer, *CANCER patients, *IMMUNOHISTOCHEMISTRY, *COLONOSCOPY, *APOPTOSIS, *DIAGNOSIS

Abstract

Aberrant crypt foci (ACF) are preneoplastic lesions in animal models of colorectal cancer. The aim of the study is to investigate if ACF are involved in human colorectal carcinogenic process and if they can be helpful in predicting the presence of a colorectal neoplasia. The study included, between 2003 and 2005, 182 patients, 62 with adenoma, 55 with colorectal carcinoma, 53 without colorectal lesions, and 12 with nonneoplastic mucosal polyps. The number of rectal ACF was determined by colonoscopy. Proliferation and apoptosis indexes were evaluated by immunohistochemistry in rectal ACF, in normal rectal mucosa, and in carcinomatous tissue. The mean number of rectal ACF in patients with rectal neoplasia was 12.64, significantly higher than in patients with neoplastic lesions elsewhere in the colon ( p = 0.01). The apoptosis index in ACF of patients with colorectal carcinoma or adenoma aged 50 years or older was significantly lower than in younger patients (1.3% vs 2.7%, p = 0.01) and, in patients with carcinoma, lower than in normal mucosa (1.1% vs 2.1%, p = 0.002). The proliferation index was significantly higher in ACF of patients with colorectal neoplasia aged less than 50 years than in normal mucosa (10.9% vs 7.7%, p = 0.02). The apoptosis index in ACF foci of patients with carcinoma (1.1%) was significantly lower than in patients without lesions (2.2%) and than in normal mucosa (2%). The mean number of ACF is significantly higher in patients with polyps larger than 1 cm (11.28 vs 6.27, p = 0.02). Aberrant crypt foci probably precede the appearance of neoplasia and may be helpful in predicting the presence of a colorectal neoplastic lesion. [ABSTRACT FROM AUTHOR]

Published

2009

22. Long-term use of nonsteroidal anti-inflammatory drugs normalizes the kinetics of gastric epithelial cells in patients with Helicobacter pylori infection via attenuation of gastric mucosal inflammation.

Author

Tanigawa, Tetsuya, Watanabe, Toshio, Higuchi, Kazuhide, Tominaga, Kazunari, Fujiwara, Yasuhiro, Oshitani, Nobuhide, Tarnawski, Andrzej, and Arakawa, Tetsuo

Subjects

*EPITHELIAL cells, *NONSTEROIDAL anti-inflammatory agents, *HELICOBACTER pylori infections, *GASTRIC mucosa, *DRUG side effects

Abstract

Helicobacter pylori ( H. pylori) is associated with chronic gastritis and gastric carcinogenesis. The effects of nonsteroidal anti-inflammatory drugs (NSAIDs), which exert chemopreventive effects on several cancers, on H. pylori-induced gastritis remain unknown. We investigated the effects of NSAIDs on gastric inflammation and the kinetics of gastric epithelial cells in H. pylori-induced gastritis. Patients with rheumatoid arthritis or osteoarthritis who took NSAIDs for more than 1 month and complained of dyspeptic symptoms were recruited for this study. Patients not on any NSAIDs were included as non-NSAID user controls. All patients underwent diagnostic testing for H. pylori infection, esophagogastroduodenoscopy, and gastric biopsies. Neutrophil infiltration into gastric mucosa, expression of inducible nitric oxide synthase (iNOS), and apoptosis and proliferation of gastric epithelial cells were evaluated by immunohistochemistry. In an in vitro study, the effects of NSAIDs on production of interleukin (IL)-8 induced by H. pylori in a gastric epithelial cell line (AGS) were determined. Numbers of neutrophils infiltrating the gastric mucosa, iNOS-expressing inflammatory cells and apoptotic cells, and proliferating cells in gastric epithelium were higher in H. pylori-positive groups than H. pylori-negative groups. Among H. pyloripositive groups, these parameters were lower in NSAID users than in non-NSAID users. NSAIDs inhibited the production of IL-8 induced by H. pylori in AGS cells. These findings suggest that long-term use of NSAIDs normalizes the kinetics of gastric epithelial cells in patients with H. pylori infection by attenuating gastric mucosal inflammation, which may result in prevention of the gastric carcinogenesis associated with H. pylori infection. [ABSTRACT FROM AUTHOR]

Published

2009

23. Characterization of Multinuclear Hepatocytes Induced in Rats by Mitemcinal (GM-611), an Erythromycin Derivative.

Author

HAYASHI, SHUJI, FUJII, ETSUKO, KATO, ATSUHIKO, KIMURA, KAZUYA, MIZOGUCHI, KEIJI, SUZUKI, MASAMI, SUGIMOTO, TETSURO, TAKANASHI, HISANORI, ITOH, ZEN, ÖMURA, SATOSHI, and WANIBUCHI, HIDEKI

Subjects

*LIVER cells, *ERYTHROMYCIN, *MOTILIN, *GASTROINTESTINAL hormones, *CELL nuclei, *MITOSIS

Abstract

Mitemcinal is an erythromycin derivative with motilin agonistic action, developed as a gastrointestinal motor-activating agent. The characteristics of mitemcinal-induced multinuclear hepatocytes (MNHs, hepatocytes with three or more nuclei per cell) from detailed morphological observations together with the results of a study on the mechanisms of MNH formation by combining cytocentrifuge preparations with 5-bromo-2′-deoxyuridine cumulative labeling are reported. MNHs were observed only in rats in the high-dose groups of the subchronic study, with a higher incidence in females and reversibility after twenty-eight days of drug withdrawal, but not observed in dogs. In the chronic study, the incidence increased relative to the dose. Histopathologically, MNHs were preferentially observed in the centrilobular zone, without nuclear atypia or mitotic figures. In the cell kinetic study, the labeling pattern of MNHs included all-positive, all-negative, and mixed labeling patterns of nuclei. The all-negative pattern indicated that the cells were formed by fusion of nondividing cells. The current results indicate that the cell kinetic approach effectively demonstrated the mechanism of mitemcinal-induced MNHs as fusion of hepatocytes and that drug-induced disturbance of mitosis is not involved in the multinucleation of MNHs by mitemcinal. [ABSTRACT FROM AUTHOR]

Published

2008

24. General morphological and biological features of neoplasms: integration of molecular findings.

Author

Diaz-Cano, S. J.

Subjects

*TUMOR growth, *PARANEOPLASTIC syndromes, *CELL proliferation -- Molecular aspects, *MOLECULAR pathology, *CANCER genetics, *CLINICAL pathology, *CANCER cell proliferation, *APOPTOSIS

Abstract

This review highlights the importance of morphology–molecular correlations for a proper implementation of new markers. It covers both general aspects of tumorigenesis (which are normally omitted in papers analysing molecular pathways) and the general mechanisms for the acquired capabilities of neoplasms. The mechanisms are also supported by appropriate diagrams for each acquired capability that include overlooked features such as mobilization of cellular resources and changes in chromatin, transcription and epigenetics; fully accepted oncogenes and tumour suppressor genes are highlighted, while the pathways are also presented as activating or inactivating with appropriate colour coding. Finally, the concepts and mechanisms presented enable us to understand the basic requirements for the appropriate implementation of molecular tests in clinical practice. In summary, the basic findings are presented to serve as a bridge to clinical applications. The current definition of neoplasm is descriptive and difficult to apply routinely. Biologically, neoplasms develop through acquisition of capabilities that involve tumour cell aspects and modified microenvironment interactions, resulting in unrestricted growth due to a stepwise accumulation of cooperative genetic alterations that affect key molecular pathways. The correlation of these molecular aspects with morphological changes is essential for better understanding of essential concepts as early neoplasms/precancerous lesions, progression/dedifferentiation, and intratumour heterogeneity. The acquired capabilities include self-maintained replication (cell cycle dysregulation), extended cell survival (cell cycle arrest, apoptosis dysregulation, and replicative lifespan), genetic instability (chromosomal and microsatellite), changes of chromatin, transcription and epigenetics, mobilization of cellular resources, and modified microenvironment interactions (tumour cells, stromal cells, extracellular, endothelium). The acquired capabilities defining neoplasms are the hallmarks of cancer, but they also comprise useful tools to improve diagnosis and prognosis, as well as potential therapeutic targets. The application of these concepts in oncological pathology leads to consideration of the molecular test requirements (Molecular Test Score System) for reliable implementation; these requirements should cover biological effects, molecular pathway, biological validation, and technical validation. Sensible application of molecular markers in tumour pathology always needs solid morphological support. [ABSTRACT FROM AUTHOR]

Published

2008

25. Proliferation and apoptosis of tumour cells before and after neoadjuvant therapy for high-grade extremity sarcomas: divergent associations with tumour response and prognosis.

Author

Matsubara, T., Eimoto, T., Okabe, M., Miyabe, S., Fujiyoshi, Y., Matsushita, Y., Mizutani, J., Yamada, S., and Otsuka, T.

Subjects

*APOPTOSIS, *TUMORS, *PROGNOSIS, *SARCOMA, *DRUG therapy, *IMMUNOHISTOCHEMISTRY

Abstract

Aims: To evaluate proliferation and apoptosis in high-grade sarcomas of the extremities before and after preoperative radio-hyperthermo-chemotherapy (RHC) and to determine the relationship between these parameters and treatment outcomes. Methods and results: Pre- and post-RHC specimens of 41 soft tissue and bone tumours were immunohistochemically stained for minichromosome maintenance protein (MCM) 2 and caspase 3 as proliferation and apoptosis markers, respectively, based on a preliminary study comparing them with conventional markers. Indices were calculated as a percentage of positive cells by counting tumour cells in the most frequently labelled areas. MCM2, caspase 3 and MCM2/caspase 3 (growth) indices were 45.3 ± 21.9%, 4.1 ± 7.1% and 82.9 ± 104.5, respectively, in pre-RHC specimens and 35.4 ± 30.8%, 39.2 ± 34.6% and 5.3 ± 11.7, respectively, in post-RHC specimens. Response scores showed positive correlation with pre-RHC MCM2 and post-RHC caspase 3 indices, inverse correlation with post-RHC MCM2 and post-RHC growth indices and no correlation with prognosis. Multivariate analysis revealed high pre-RHC MCM2 and high post-RHC growth indices as significant unfavourable prognostic factors. Conclusions: High proliferative activity in untreated sarcoma may predict good response to neoadjuvant therapy, but poor prognosis, whereas a high growth index, i.e. high proliferation:apoptosis ratio in a post-neoadjuvant therapy tumour specimen may indicate poor response and poor prognosis. [ABSTRACT FROM AUTHOR]

Published

2008

26. Cyclin D1 Overexpression Permits the Reproducible Detection of Senescent Human Vascular Smooth Muscle Cells.

Author

BURTON, DOMINICK G. A., SHEERIN, ANGELA N., OSTLER, ELIZABETH L., SMITH, KAYE, GILES, PETER J., LOWE, JILL, RHYS‐WILLIAMS, WILLIAM, KIPLING, DAVID G., and FARAGHER, RICHARD G. A.

Subjects

*CYCLIN-dependent kinases, *CELL cycle, *AGING, *TISSUES, *MUSCLE cells, *GROWTH factors, *CYTOCHEMISTRY

Abstract

The senescence of mitotic cells is hypothesized to play a causal role in organismal aging. Cultures of normal human cells become senescent in vitro as a result of a continuous decline in the mitotic fraction from cell turnover. However, one potential barrier to the evaluation of the frequency and distribution of senescent cells in tissues is the absence of a panel of robust markers for the senescent state. In parallel with an analysis of the growth kinetics of human vascular smooth muscle cells, we have undertaken transcriptomic comparisons of early- and late-passage cultures of human vascular smooth muscle cells to identify potential markers that can distinguish between senescent and growth-competent cells. A wide range of genes are upregulated at senescence in human vascular smooth muscle cells. In particular, we have identified a 12-fold upregulation of expression in the cyclin D1 message, which is reflected in a concomitant upregulation at the protein level. Quantitative cytochemical analysis of senescent and growing vascular smooth muscle cells indicates that cyclin D1 reactivity is a considerably better marker of replicative senescence than senescence-associated β-galactosidase activity. We have applied this new marker (in combination with Ki67, COMET, and TUNEL staining) to the study of human vascular smooth muscle cells treated with resveratrol, a putative anti-aging molecule known to have significant effects on cell growth. [ABSTRACT FROM AUTHOR]

Published

2007

27. Cell Kinetics

Author

Wilson, G.D.

Subjects

*RADIOTHERAPY, *CELL cycle, *CELL proliferation, *MEDICAL radiology

Abstract

Abstract: Cell kinetic concepts have pervaded radiation therapy since the early part of the 20th century and have been instrumental in the development of modern radiotherapy. In this review, the fundamental radiobiological concepts that have been developed based on cell kinetic knowledge will be revisited and discussed in the context of contemporary radiation therapy. This will include how the proliferation characteristics, variation in sensitivity during the cell cycle and the extent of radiation-induced cell cycle delay translate into a variable time for the expression of damage, how cell kinetics interacts with hypoxia and how the response to fractionated radiation schedules is influenced by cell kinetics in terms of repair, redistribution, reoxygenation and repopulation. The promise of combining radiation with new biologically targeted agents and the potential of non-invasive positron emission tomography imaging of proliferation are areas where cell kinetics will continue to influence radiotherapy practice. [Copyright &y& Elsevier]

Published

2007

28. A Microenvironment Based Model of Antimitotic Therapy of Gompertzian Tumor Growth.

Author

Kozusko, Frank, Bourdeau, Michele, Bajzer, Zeljko, and Dingli, David

Subjects

*ANTIMITOTIC agents, *TUMOR growth, *CELL populations, *DRUG therapy, *CYTOLOGY

Abstract

A model of tumor growth, based on two-compartment cell population dynamics, and an overall Gompertzian growth has been previously developed. The main feature of the model is an inter-compartmental transfer function that describes the net exchange between proliferating (P) and quiescent (Q) cells and yields Gompertzian growth for tumor cell population N = P + Q. Model parameters provide for cell reproduction and cell death. This model is further developed here and modified to simulate antimitotic therapy. Therapy decreases the reproduction-rate constant and increases the death-rate constant of proliferating cells with no direct effect on quiescent cells. The model results in a system of two ODE equations (in N and P/N) that has an analytical solution. Net tumor growth depends on support from the microenvironment. Indirectly, this is manifested in the transfer function, which depends on the proliferation ratio, P/N. Antimitotic therapy will change P/N, and the tumor responds by slowing the transfer rate from P to Q. While the cellular effects of therapy are modeled as dependent only on antimitotic activity of the drug, the tumor response also depends on the tumor age and any previous therapies—after therapy, it is not the same tumor. The strength of therapy is simulated by the parameter λ, which is the ratio of therapy induced net proliferation rate constant versus the original. A pharmacodynamic factor inversely proportional to tumor size is implemented. Various chemotherapy regimens are simulated and the outcomes of therapy administered at different time points in the life history of the tumor are explored. Our analysis shows: (1) for a constant total dose administered, a decreasing dose schedule is marginally superior to an increasing or constant scheme, with more pronounced benefit for faster growing tumors, (2) the minimum dose to stop tumor growth is age dependent, and (3) a dose-dense schedule is favored. Faster growing tumors respond better to dose density. [ABSTRACT FROM AUTHOR]

Published

2007

29. Pseudo-likelihood estimation for discretely observed multitype Bellman–Harris branching processes

Author

Hyrien, Ollivier

Subjects

*STOCHASTIC processes, *ESTIMATION theory, *CELL division, *CULTURES (Biology)

Abstract

Abstract: This paper presents a method for parametric estimation in the class of multitype Bellman–Harris branching processes when the data consist of cell counts collected on several colonies observed at discrete time points. This sampling scheme arises frequently in biology to analyze cell proliferation in tissue culture. We investigate the use of a pseudo-likelihood approach in this context. It is defined from the mean vectors and variance–covariance matrices of the numbers of cells. The proposed estimator is strongly consistent and asymptotically normal as the number of observed colonies goes to infinity. In situations where these two moments have no closed-form expressions their values can be replaced by simulation-based approximations. The resulting simulated pseudo-maximum likelihood estimator is asymptotically equivalent to the pseudo-maximum likelihood estimator as the number of simulation increases. We illustrate the proposed method via two examples, and evaluate its finite sample properties through simulations. [Copyright &y& Elsevier]

Published

2007

30. Estimating division and death rates from CFSE data

Author

De Boer, Rob J. and Perelson, Alan S.

Subjects

*CELL proliferation, *IMMUNE system, *DEATH rate, *DISTRIBUTION (Probability theory), *MATHEMATICAL models

Abstract

Abstract: The division tracking dye, carboxyfluorescin diacetate succinimidyl ester (CFSE) is currently the most informative labeling technique for characterizing the division history of cells in the immune system. Gett and Hodgkin (Nat. Immunol. 1 (2000) 239–244) have proposed to normalize CFSE data by the 2-fold expansion that is associated with each division, and have argued that the mean of the normalized data increases linearly with time, t, with a slope reflecting the division rate p. We develop a number of mathematical models for the clonal expansion of quiescent cells after stimulation and show, within the context of these models, under which conditions this approach is valid. We compare three means of the distribution of cells over the CFSE profile at time t: the mean, , the mean of the normalized distribution, , and the mean of the normalized distribution excluding nondivided cells, . In the simplest models, which deal with homogeneous populations of cells with constant division and death rates, the normalized frequency distribution of the cells over the respective division numbers is a Poisson distribution with mean , where p is the division rate. The fact that in the data these distributions seem Gaussian is therefore insufficient to establish that the times at which cells are recruited into the first division have a Gaussian variation because the Poisson distribution approaches the Gaussian distribution for large pt. Excluding nondivided cells complicates the data analysis because , and only approaches a slope p after an initial transient. In models where the first division of the quiescent cells takes longer than later divisions, all three means have an initial transient before they approach an asymptotic regime, which is the expected and . Such a transient markedly complicates the data analysis. After the same initial transients, the normalized cell numbers tend to decrease at a rate , where d is the death rate. Nonlinear parameter fitting of CFSE data obtained from Gett and Hodgkin to ordinary differential equation (ODE) models with first-order terms for cell proliferation and death gave poor fits to the data. The Smith–Martin model with an explicit time delay for the deterministic phase of the cell cycle performed much better. Nevertheless, the insights gained from analysis of the ODEs proved useful as we showed by generating virtual CFSE data with a simulation model, where cell cycle times were drawn from various distributions, and then computing the various mean division numbers. [Copyright &y& Elsevier]

Published

2005

31. In vivo cell kinetic measurements in a randomized trial of continuous hyperfractionated accelerated radiotherapy with or without mitomycin C in head-and-neck cancer

Author

Dobrowsky, Werner, Dobrowsky, Eva, and Wilson, George D.

Subjects

*CANCER radiotherapy, *MITOMYCIN C

Abstract

Purpose: Tumor cell repopulation is still considered to be a major cause of failure in radiotherapy. In this study, we investigated the influence of cell kinetic parameters on the outcome of patients treated in a randomized trial of accelerated fractionation, with or without mitomycin C, vs. conventional fractionation.Methods and Materials: Sixty-two patients were studied using administration of bromodeoxyuridine (BrdUrd), and cell kinetic parameters were measured using flow cytometry. The patients were treated with either 70 Gy for 7 weeks or 55.3 Gy for 17 continuous days (V-CHART) with or without 20 mg/m2 mitomycin C on day 5.Results: The potential doubling time (Tpot) and labeling index (LI) failed to provide any prognostic information with regard to local control or survival. However, the duration of the S phase (Ts) revealed patients whose tumors had a long Ts had significantly worse local control (p = 0.028) and survival (p = 0.034) irrespective of treatment. A similar trend was evident within the different treatment arms particularly associated with overall survival.Conclusions: The Ts values of head-and-neck squamous cell cancers provided prognostic information that predicted clinical outcome irrespective of treatment schedule in this study. This neglected parameter of the Tpot method might provide information related to redistribution of cells during fractionated radiotherapy. [Copyright &y& Elsevier]

Published

2003

32. Mucosal high apoptotic activity and low p21WAF1/CIP1 expression and submucosal low proliferative activity in superficially spreading early gastric cancers: Comparison with the penetrating growth type.

Author

Ichinoe, Masaaki, Mitomi, Hiroyuki, Kikuchi, Shiro, Tanabe, Satoshi, Akino, Fumiyuki, and Okayasu, Isao

Subjects

*STOMACH cancer, *CELL cycle, *LYMPH nodes, *METASTASIS

Abstract

In order to investigate cell kinetics and cell cycle regulator protein expression with reference to the growth pattern of early gastric carcinomas (EGCs), we evaluated a total of 240 EGCs with submucosal invasion clinicopathologically and 106 submucosal invasive lesions immunohistochemically. The incidence of lymph node metastasis was relatively high (36.4%) in the superficially spreading growth (SUP) type tumors whereas the penetrating growth (PEN) type had a low incidence (5.7%, P < 0.001) and correlated with submucosal tumor size. Ki67 labeling was lower in submucosal areas of the SUP-type tumors (median, 37.3%) than the PEN-type tumors (51.0%, P < 0.001). ssDNA labeling in the lamina propria, indicative of apoptotic activity, was higher in the SUP-type tumors (0.55%) than in PEN-type (0.30%, P < 0.01) lesions. The expression of cell cycle regulator p21WAF1/CIP1 was lower in the SUP-type tumors (lamina propria 15.6%, submucosa 2.6%) than in PEN-type tumors (lamina propria 26.5%, submucosa 4.4%, P < 0.05–0.001). In conclusion, differences in cell kinetics and p21WAF1/CIP1 expression might influence the growth pattern of EGCs. The SUP-type EGC, characterized by high apoptotic in the lamina propria and low proliferative activities in the submucosa, is associated with frequent lymph node metastasis, suggesting a strong correlation between tumor size in the submucosa and metastatic potential. [ABSTRACT FROM AUTHOR]

Published

2003

33. Cell kinetics-dependent antitumor effect of irinotecan hydrochloride induced by the synchronizing effect of hydroxyurea: cell kinetics and dosing time

Author

Akagi, Takanori, Ushinohama, Kazami, Kage, Yuki, Ishizaki, Takashi, Makinosumi, Tomoko, Yamauchi, Atsushi, Taguchi, Yukie, Inoue, Kouichi, Yukawa, Eiji, Higuchi, Shun, and Ohdo, Shigehiro

Subjects

*PHARMACOKINETICS, *SARCOMA

Abstract

Influence of hydroxyurea (HU) on the antitumor effect of irinotecan hydrochloride (CPT-11) was investigated in ICR male mice transplanted with sarcoma 180 cells (S-180). A single dose of CPT-11 (100 mg/kg) was injected at various times after a single dose of HU (300 mg/kg). The relative tumor weight varied significantly depending on the timing of CPT-11 injection after HU injection (P < 0.01). The higher antitumor effect of CPT-11 was observed when DNA synthesis of S-180 cells increased (20 hr), and the lower effect was observed when the DNA synthesis decreased (0 hr). The loss of body weight also varied significantly depending on the timing of CPT-11 injection after HU injection (P < 0.01). The toxicity of CPT-11 was higher when the inhibitory effect of HU on DNA synthesis of bone marrow cells was stronger (15 hr), and the lower toxicity was observed when the inhibitory effect was not observed (0 hr). The plasma SN-38 concentration at 2 hr after CPT-11 injection was higher at 20 hr after HU injection than at 0 hr after HU injection. The difference in plasma esterase activity between 0 hr and 20 hr after HU injection was regarded as the mechanism underlying the dosing time-dependent difference of the SN-38 concentration. These experiments suggest that HU can produce a different phase of cell cycle between tumor cells and normal cells. This leads to increase the antitumor effect of CPT-11 without increasing the adverse effect of the drug. It is essential to consider the dosing time in the two-drug combination therapy. [Copyright &y& Elsevier]

Published

2003

34. Crypt Cell Production Rate in the Small Intestine of the Zinc-Supplemented Mouse.

Author

Duff, Michael and Ettarh, Rajunor R.

Subjects

*ZINC, *TRACE elements, *INGESTION, *GASTROINTESTINAL system, *INFLAMMATION

Abstract

Zinc is a trace element which is necessary in the body and the daily requirement is usually provided mainly through food intake. The effects of zinc deficiency are multisystemic and in the gastrointestinal tract include ulceration and inflammation. Many of these effects in the mammalian small intestine are reversible by zinc replenishment in a manner that is thought to be linked to the effect of this element on intestinal mucosal cell kinetics. However, the effects of continued replenishment (supplementation) have not been closely examined. This study examined the effects of zinc supplementation on gut crypt cell production in zinc-replete animals. Fifteen CD-1 mice were given zinc sulphate (0.3 mmol/l) in tap water while a second (control) group of 15 mice received only tap water. After 14 days, the small intestine was removed, measured and divided into four equal lengths and then sampled at the midpoint of each of the resulting four segments. Whole crypt numbers and crypt cell production rate were determined for each intestinal site for both groups of mice. While crypt dimensions and crypt numbers in zinc-fed mice showed no significant change from control levels, the crypt cell production in zinc-fed mice was significantly increased and duration of mitosis reduced in the third (distal) intestinal segment when compared to values from control mice. These findings show that the addition of subtoxic quantities of zinc to diet in zinc-replete animals enhances cell production and indicate that the reversal of zinc deficiency-induced gut damage following dietary zinc replenishment may be due to a direct effect on cell kinetics.Copyright © 2002 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2002

35. Cell kinetic studies in the murine ventral tongue epithelium: thymidine metabolism studies and circadian rhythm determination.

Author

Potten, C. S., Booth, D., Cragg, N. J., Tudor, G. L., O'Shea, J. A., Appleton, D., Barthel, D., Gerike, T. G., Meineke, F. A., Loeffler, M., and Booth, C.

Subjects

*ORAL mucosa diseases, *EPITHELIAL cells, *METABOLISM, *THYMIDINE, *CIRCADIAN rhythms

Abstract

Abstract. The oral mucosa is a rapidly replacing body tissue that has received relatively little attention in terms of defining its cell kinetics and cellular organization. The tissue is sensitive to the effects of cytotoxic agents, the consequence of which can be stem cell death with the subsequent development of ulcers and the symptoms of oral mucositis. There is considerable interest in designing strategies to protect oral stem cells and, hence, reduce the mucositis side-effects in cancer therapy patients. Here we present details of a new histometric approach designed to investigate the changing patterns in cellularity in the ventral tongue mucosa. This initial paper in a series of four papers presents observations on the changing patterns in the labelling index following tritiated thymidine administration, which suggest a delayed uptake of tritiated thymidine from a long-term intracellular thymidine pool, a phenomenon that will complicate cell kinetic interpretations in a variety of experimental situations. We also provide data on the changing pattern of mitotic activity through a 24-h period (circadian rhythms). Using vincristine-induced stathmokinesis, the data indicate that 54% of the basal cells divide each day and that there is a high degree of synchrony in mitotic activity with a mitotic peak occurring around 13.00 h. The mitotic circadian peak occurs 9-12 h after the circadian peak in DNA synthesis. The data presented here and in the subsequent papers could be interpreted to indicate that basal cells of BDF1 mice have an average turnover time of about 26-44 h with some cells cycling once a day and others with a 2- or 3-day cell cycle time. [ABSTRACT FROM AUTHOR]

Published

2002

36. Cell kinetic studies in the murine ventral tongue epithelium: the effects of repeated exposure to keratinocyte growth factor.

Author

Potten, C. S., Booth, D., Cragg, N. J., O'Shea, J. A., Tudor, G. L., and Booth, C.

Subjects

*ORAL mucosa diseases, *EPITHELIAL cells, *GROWTH factors, *KERATINOCYTES

Abstract

Abstract. Keratinocyte growth factor (KGF) stimulates proliferation and differentiation in various epithelial systems. Three daily subcutaneous injections of 125 µg of this protein into mice induce dramatic changes in the histology and histometric measurements of the ventral tongue epithelium. The thickness of the epithelium is increased two-fold and the number of cells beneath a 1-mm length of the surface is increased 1.6-fold. KGF also induces a four-fold increase in the number of S phase cells labelled with tritiated thymidine in the basal layer on the third day after KGF administration. The increase in thickness and cellularity persist for at least 4 days after the end of the KGF injections. However, there is a dramatic fall in the number of S phase cells detected by 3 HTdR pulse labelling 2 days after the end of the KGF treatment. There are indications that by 7 days after the 3-day regimen of KGF treatment, both thickness and cellularity have fallen back to near control levels. Continued exposure to KGF over a period of 7 days does not result in any further increases in thickness, cellularity or proliferation. In fact, the proliferation decreases on the fifth, sixth and seventh days of KGF injection to control values on day 7. These changes in the epithelium following KGF treatment suggest that the thicker and more cellular epithelium may be more able to cope with an exposure to a cytotoxic agent and hence be protected in comparison with normal or vehicle-treated epithelium. [ABSTRACT FROM AUTHOR]

Published

2002

37. Cell kinetic studies in murine ventral tongue epithelium: cell cycle progression studies using double labelling techniques.

Author

Potten, C. S., Booth, D., Cragg, N. J., O'Shea, J. A., Tudor, G. L., and Booth, C.

Subjects

*ORAL mucosa diseases, *EPITHELIAL cells, *CELL cycle

Abstract

Abstract. The dorsal and ventral epithelia on the murine tongue exhibit very pronounced circadian rhythms in terms of the cell cycle. These rhythms are such that three injections of tritiated thymidine 3 h apart spanning the circadian peak in S phase cells labelled between 40 and 50% of the basal cells. Injection of bromodeoxyuridine generally gave slightly lower labelling indices. Approximately the same proportion (54% of the basal cells) could be accumulated in metaphase over a 24-h period using vincristine as a stathmokinetic agent. The experiments reported here using mouse ventral tongue epithelium use double-labelling approaches to address the question: what proportion of the approximately 50% of the basal cells that are proliferating have a 24-h cell cycle and can therefore be labelled by a similar labelling protocol the following day? The results suggest a heterogeneity amongst the proliferating basal cells, similar to the heterogeneity proposed for the dorsal tongue epithelium. Although not all the basal component has been accounted for, the data presented here suggest that about 20% of the basal cells may have a cell cycle time of 24 h, about 30% appear to have a longer cell cycle time (48 or 72 h), while about 20% of the basal cells appear to be postmitotic maturing G1 cells, awaiting the appropriate signals for migration into the suprabasal layer. [ABSTRACT FROM AUTHOR]

Published

2002

38. Cell kinetic studies in the murine ventral tongue epithelium: mucositis induced by radiation and its protection by pretreatment with keratinocyte growth factor (KGF).

Author

Potten, C. S., Booth, D., Cragg, N. J., Tudor, G. L., O'Shea, J. A., Booth, C., Meineke, F. A., Barthel, D., and Loeffler, M.

Subjects

*ORAL mucosa diseases, *EPITHELIAL cells, *GROWTH factors, *KERATINOCYTES

Abstract

Abstract. Radiation kills or reduces reproductive capacity of proliferating cells, including stem cells. In the oral mucosae this can result in a decline in the number of cells in the tissue which, if severe enough, will result in the formation of an ulcer when the cellularity essentially reaches zero. We have used histometric measurements of cellularity following exposure to radiation in mouse ventral tongue epithelium as a model for oral mucositis (ulcer development). Here we provide further measurements of cellularity changes in the basal layer and in the epithelium as a whole at various times following 15, 20 or 25 Gy doses. The protective effects of prior treatment with keratinocyte growth factor (KGF) are also investigated. 20 Gy of 300 kV X-rays has become our standard reference dose and the changes in cellularity seen following this dose are highly reproducible, with minimum values being observed 6 days following irradiation. A higher dose results in a greater reduction of cellularity, although the minimum value also occurs at 6 days. A lower dose (15 Gy) results in a much shallower curve, with a minimum value being observed about 1 day earlier. These changes in cellularity can be related to the less sensitive index of mucositis, namely epithelial thickness. There is also a sharp peak in proliferation about 1 day after the minimum in cellularity, i.e. on day 7. The peak following a lower dose of radiation occurs a little earlier and, following the higher dose, the peak tends to be broader. Previous work and data presented in the preceding paper in this series has shown that KGF, given over a period of 3 days, results in a dramatic increase in epithelial thickness in oral mucosa, including the ventral tongue. As a result of the increased cellularity induced by KGF given before radiation, a delay in the fall in cellularity results, which is the consequence of the increased number of cells in the epithelium at the beginning of the study. [ABSTRACT FROM AUTHOR]

Published

2002

39. Fast-growing squamous cell lung cancer

Author

Shyu, Ching-Lih, Lee, Yu-Chin, and Perng, Reury-Perng

Subjects

*SQUAMOUS cell carcinoma, *TUMOR growth, *CANCER cell growth

Abstract

We here report a case of squamous cell carcinoma of the lung, with an unusually fast tumor growth rate, so fast that its early detection was impossible even with two sequential chest roentgenograms taken only 36 days apart. Literature related to the concept of cell growth kinetics was reviewed, and the tumor volume doubling time that characterizes any measurable tumor was calculated for our case accordingly, based on the single lesion found on the plain chest film, with the best possible estimation of its volume. We concluded that, to the best of our knowledge, a squamous cell carcinoma of the lung that grew so fast (with a tumor doubling time less than 7.5 days) has not yet been reported to date; neither has a bronchogenic carcinoma of any cell type been reported with such a presentation. Given that a patient aged 81 belonged to a group usually with slower growth in tumor cell kinetics, the behavior of his tumor was indeed uncommon. [Copyright &y& Elsevier]

Published

2002

40. Contribution of a mathematical modelling approach to the understanding of the ovarian function

Author

Clément, Frédérique, Monniaux, Danielle, Thalabard, Jean-Christophe, and Claude, Daniel

Subjects

*OVARIES, *MEDICAL mathematics, *OVULATION

Abstract

The biological meaning of folliculogenesis is to free fertilisable oocytes at the time of ovulation. We approached the study of the control of follicular development at the level of follicular granulosa cells, on the experimental as well as mathematical modelling grounds. We built a mathematical model allowing for the processes of proliferation, differentiation and apoptosis. State variables correspond to the numbers of cells undergoing these different processes, while control variables correspond to the cellular transition rates. The model results raised the notion of proliferative resources, which leads to consider the optimal management of these resources and has motivated the settling of an experiment investigating the changes in the growth fraction within the granulosa throughout terminal development. We are now investigating the way gonadotrophins, and especially FSH, operate on granulosa cells, in order to account for the hormonal control of the divergent commitment of granulosa cells towards either proliferation, differentiation or apoptosis. We are thus focusing on the dynamics of cAMP production, which appears to be a keypoint in FSH signal transduction. [Copyright &y& Elsevier]

Published

2002

41. The Role of Gender, Age and Microbial Status on Cell Kinetics in the Gastrointestinal Tract of Mice.

Author

Banasaz, M., Norin, E., and Midtvedt, T.

Subjects

*GASTROINTESTINAL system, *HUMAN sexuality, *MICROBIAL ecology, *ANIMALS, *AGE

Abstract

The aim of this study was to investigate cell kinetic and morphological parameters in the intestinal tract of young (35 days old) and old (184 ± 16 days old) germ-free (GF) and conventional (Conv) NMRI-KI mice of both sexes. Specimens from eight parts of the intestine were investigated microscopically. In the small intestine, the parameters determined included the percentage of cells in mitosis (i.e. mitotic index), the number of cells in the crypts and villi, the depth of the crypts, the height of the villi and the crypt-to-villus ratio (C/V). In the large intestine, the mitotic index (MI), the number of cells and the depth of the crypts were determined. RESULTS: Gender had a minor effect on the results. Cell kinetics: no effects were observed. Morphology: 12 out of 132 possible significant differences were found, half of which were located to the duodenum and the distal part of the colon (three each). No specific tendency was found. Age had a stronger effect on the results than gender did. Cell kinetics: there were 4 out of 32 possible differences, all expressing higher MI in the small intestine of the young animals. Morphology: 20 significant differences were found, mostly related to there being more cells in the crypts in the young animals. Microbial status had the most marked effect on the results. Cell kinetics: 8 out of 10 significant differences were found in the large intestine, all expressing higher MI in the Conv animals. Morphology: there were 30 differences in the small and 25 differences in the large intestine. Most of the differences were related to the evidence of deeper crypts and more cells in the crypts, of the conventional mice compared to the GF animals, with the most pronounced results being in the large intestine. CONCLUSION: Gender, age and microbial status affected the intestinal cell kinetics and morphology in a compartmentalized manner, of which the microbial status of the animal showed the strongest effect. [ABSTRACT FROM AUTHOR]

Published

2001

42. Gender, Age and Microbial Status Influence upon Intestinal Cell Kinetics in a Compartmentalized Manner: An Experimental Study in Germfree and Conventional Rats.

Author

Banasaz, M., Alam, M., Norin, E., and Midtvedt, T.

Subjects

*GASTROINTESTINAL system, *GERMFREE animals, *COHORT analysis, *CELL proliferation, *CYTOLOGY, *PHYSIOLOGY

Abstract

The aim of this study was to investigate the cell kinetics and epithelial structure in the intestinal tract in cohorts of young and old germfree (GF) and conventional AGUS rats of both sexes. The young rats were 35 days old and the old rats were 190960 days old. All rats were fed the same diet and water ad libitum. At the beginning of the experiments, the rats were starved for 2.5 h. Thereafter, all animals were given vincristine 1 mg/kg intraperitoneally (i.p.) 4 h before they were sacrificed. Specimens from eight parts of the intestine were investigated. The cell kinetic parameters determined in the small intestine were percentage of cells in mitosis, growth fraction (GrF), total number of cells in the crypts and villi, depth of the crypts, height of villi and the crypt/villus (C/V) ratio. In the colon, the percentage of cells in mitosis, GrF and the total number of cells in the crypts, as well as depth of the crypts, were determined. Taken together, the effect of gender was most pronounced in the upper part of the small intestine, the effect of age was most pronounced in the lower small intestine, whereas the effect of microbial status was relatively more pronounced in the duodenum and in the large intestine. Thus, these factors are acting in a compartmentalized manner in the intestinal tract. In conclusion, gender, age and microbial status have to be taken. [ABSTRACT FROM AUTHOR]

Published

2000

43. The repopulation of murine Langerhans cells after depletion by mild heat injury.

Author

Ghaznawie, Papadimitriou, Heenan, and Heenan

Subjects

*LANGERHANS cells, *CELL proliferation, *CELL division, *EPIDERMIS, *CYTOLOGY

Abstract

We have developed a model of focal Langerhans cell depletion by mild heat injury and used it to investigate the mechanisms of Langerhans cell repopulation in the injured epidermis. The possibility whether repopulation occurred by recruitment of precursor cells from the circulation or dermis or, alternatively, by migration from the surrounding normal epidermis into the injured area was considered. Repopulation was studied by evaluating the pattern of Langerhans cell reappearance and calculating the rate of change in the density. Heat injury followed by whole-body irradiation with shielding of the injured skin was used to assess repopulation in the absence of bone marrow precursors. Using tritiated thymidine autoradiography, we also investigated whether the newly arrived Langerhans cells (be they from circulating precursors or surrounding normal epidermis) actually divide. The results showed that heat injury completely eliminated the Langerhans cells within the area delineated by the injury. Two hours after injury, the Langerhans cells were fragmented and 2 days later, they could not be detected. Regeneration of the epidermis occurred 2 days after injury and Langerhans cells reappeared scattered somewhat sparsely in the centre of the lesion on day 3. These cells were small and slender, bearing one or two short dendrites. As the dendrites increased in number and in length, the cells became similar morphologically and phenotypically to normal Langerhans cells. The rate of repopulation increased dramatically between days 5 and 7 and reached normal density on day 11. The pattern of Langerhans cell repopulation in the injured area and the lack of repopulation in the irradiated animals indicated that repopulation occurs by immigration of precursors from the circulation or dermis. There was no indication of migration of Langerhans cells from surrounding normal epidermis. Lastly, the newly arrived Langerhans cells failed to divide at the site of injury. [ABSTRACT FROM AUTHOR]

Published

1999

44. Epithelial cell kinetics in oral leukoplakia.

Author

Warnakulasurlyala, K.A.A.S. and Macdonald, D.G.

Subjects

*ORAL leukoplakia, *EPITHELIAL cells, *CELL proliferation, *MUCOUS membrane diseases

Abstract

Cell proliferation in oral leukoplakia has been studied by estimating the number of cells in the S phase using in vitro [SUP3]H thymidine labelling. The labelling index was found to be increased 1.77 fold in leukoplakias compared to the clinically normal control sites (P < 0.005). This rise in labelling index was found to be related to an increase in the proportion of the cells in the basal cell layer engaged in cell production. Both leukoplakia and the control specimens showed epithelial atypia, although in the latter samples this was mild yet suggestive of a possible field change in the oral epithelium of a small group of tobacco users. A significant positive correlation was found between the epithelial atypia score and the labelling index. This raises the possibility of using the labelling index as an objective prognostic marker in assessing potential malignancy in oral leukoplakia lesions. [ABSTRACT FROM AUTHOR]

Published

1995

45. In vivo effects of Candida albicans products on rat oral epithelium.

Author

Reed, M. F., Scragg, M. A., Williams, D. M., and Soames, J. V.

Subjects

*CANDIDA, *CRYPTOCOCCACEAE, *ORAL mucosa, *EPITHELIUM, *LABORATORY rats, *CELLS, *SKIN diseases, *EPITHELIUM microbiology, *HYPERPLASIA, *ANIMAL experimentation, *CANDIDA albicans, *CELL division, *CELL physiology, *COMPARATIVE studies, *EPITHELIAL cells, *RESEARCH methodology, *MEDICAL cooperation, *BASAL lamina, *RATS, *RESEARCH, *TIME, *EVALUATION research

Abstract

Candida albicans has been associated with epithelial hyperplasia in some diseases of oral mucosa and skin but its etiologic role in these lesions is poorly understood. To test its ability to induce epithelial proliferation, the invasive hyphal form was cultured for 5 h and 23 h in chemically defined medium and yeast-free culture supernatants were injected below the buccal epithelium of young adult Sprague Dawley rats. The mitotic activity was assessed using the metaphase arrest technique 11 h and 31 h after supernatant injection. There was a significant increase in epithelial mitotic activity 31 h after injection with 5 h culture supernatants compared to control media indicating that the supernatants have an effect on epithelial cells, possibly by direct action on them. [ABSTRACT FROM AUTHOR]

Published

1990

46. Periodontal ligament cell kinetics following experimental regenerative procedures.

Author

Aukhil, I. and Igihaut, J.

Subjects

*DENTAL therapeutics, *LIGAMENTS, *DENTISTRY, *PYRIMIDINE nucleotides, *THYMIDINE, *CELLS

Abstract

The present study analyzed the cell kinetics in periodontal ligament (PDL) apical to curetted root surfaces following an experimental regeneration procedure. 3 mm of the buccal and interproximal bone was removed around the premolars and molars in 4 Macaca fascicularis monkeys. The exposed root surfaces were planed thoroughly. Before replacing the flaps, pieces of Millipore filter were attached to the crowns of 1 premolar and 1 molar in each quadrant to cover the exposed roots. The adjacent teeth had no physical barriers and served as control wounds. The treatment procedure in 4 segments and sacrifice of the monkeys were scheduled to provide observational periods of 1, 2, 3 and 7 days. 1 h before sacrifice, 3-H thymidine was injected intravenously. Autoradiographs of buccolingual sections were prepared and the labelling index (LI) in the PDL apical to curetted root surface measured in 200 μm increments. The LI remained increased in the first 200 μm of the PDL in both the experimental and control wounds at all observation periods compared to similar zones on the unwounded lingual surfaces. The LI was highest in the first 200 μm zone and decreased to almost normal levels at about 600 μm from the curetted root surface. There were no statistically significant differences between the LI for the PDL apical to experimental and control wounds at all observation periods. The present findings suggest that following experimental regeneration procedures in monkeys, a very limited zone of the PDL apical to the wound acts as a source for cells migrating into the wound. Furthermore, there appears to be only 1 peak of activity in the premitotic label uptake by cells in the PDL and the eventual population of curetted root surfaces by cells may depend on the continued amplifying divisions of these cells. [ABSTRACT FROM AUTHOR]

Published

1988

47. Growth Kinetics of Glioma Cells.

Author

Miller Jr., Rupert G., Halks-Miller, Meredith, Egger, Marlene J., and Halpern, Jerry W.

Subjects

*DYNAMICS, *TUMOR growth, *GLIOMAS, *ORGAN culture, *CYTOLOGY, *NERVOUS system tumors, *CELLS, *MITOSIS, *BRANCHING processes, *REGRESSION analysis

Abstract

Three experiments involving the growth of tumor cells in an organ culture system are described. The fraction of labeled mitoses, the labeling index, and the grain count are measured in each of these experiments. The data and the statistical analyses involving skewed logistic regression, branching process theory, and two-phase linear regression are presented. [ABSTRACT FROM AUTHOR]

Published

1982

48. Bivariate cytofluorimetric analysis of nuclear protein and DNA relative to cell kinetics during germination of Pisum sativum seed.

Author

Sgorbati, Sergio, Sparvoli, Elio, Levi, Marisa, and Chiatante, Donato

Subjects

*PLANT roots, *PEAS, *FLUORIMETRY, *CELLS, *GERMINATION, *PISUM

Abstract

By means of a biparametric cytofluorimetric analysis it is possible to distribute meristematic plant cells in a variety of cell cycle sub-compartments, unidentifiable by DNA measurements alone. In this work, an asynchronous proliferating cell population of pea root meristems was divided into different sub-compartments of the cell cycle phases. i.e. G1A, G1B, S. G2A and G2B on the basis of their DNA-nuclear protein content. By means of the same biparametric analysis, differentiated mesophyll cells and quiescent cells of embryo roots, indicated as G0 and G2Q, were distinguished from cycling cells by their low nuclear protein content. These results conform to those of some analyses performed on animal cells in culture and show that it is possible to get a major insight into cell cycle kinetics and its control in a natural system such as root meristem. [ABSTRACT FROM AUTHOR]

Published

1989

49. Branching stochastic processes with immigration in analysis of renewing cell populations

Author

Yakovlev, Andrei and Yanev, Nikolai

Subjects

*STEM cells, *CELL proliferation, *GENETICS, *CYTOLOGY

Abstract

Abstract: This paper considers the utility of a new class of stochastic branching processes with non-homogeneous immigration in modeling complex renewing cell systems. Such systems typically include the population of stem cells that provides an inexhaustible supply of cells necessary for maintaining the cellular composition of a tissue. A stem cell may be induced to transform (differentiate) into a progenitor cell. Progenitor cells retain the ability to proliferate and their function is believed to provide a quick proliferative response to an increased demand for cells in the population. There may be several sub-types of progenitor cells. Terminally differentiated cells do not divide under normal conditions; they are responsible for maintaining tissue-specific functions. Recent advancements in experimental techniques offer considerable scope for quantitative studies of in vivo cell kinetics based on stochastic modeling of renewing cell populations. However, no ready-made theory is currently available to take full advantage of these advancements. This paper introduces such a theory with a special focus on its feasibility in biological applications. [Copyright &y& Elsevier]

Published

2006

50. Combining Gompertzian growth and cell population dynamics

Author

Kozusko, Frank and Bajzer, Željko

Subjects

*CANCER cells, *CELL populations, *CELL proliferation, *CANCER cell growth

Abstract

A two-compartment model of cancer cells population dynamics proposed by Gyllenberg and Webb includes transition rates between proliferating and quiescent cells as non-specified functions of the total population, N. We define the net inter-compartmental transition rate function: Φ(N). We assume that the total cell population follows the Gompertz growth model, as it is most often empirically found and derive Φ(N). The Gyllenberg–Webb transition functions are shown to be characteristically related through Φ(N). Effectively, this leads to a hybrid model for which we find the explicit analytical solutions for proliferating and quiescent cell populations, and the relations among model parameters. Several classes of solutions are examined. Our model predicts that the number of proliferating cells may increase along with the total number of cells, but the proliferating fraction appears to be a continuously decreasing function. The net transition rate of cells is shown to retain direction from the proliferating into the quiescent compartment. The death rate parameter for quiescent cell population is shown to be a factor in determining the proliferation level for a particular Gompertz growth curve. [Copyright &y& Elsevier]

Published

2003