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1.
J Immunol ; 211(11): 1656-1668, 2023 12 01.
Artículo en Inglés | MEDLINE | ID: mdl-37850953

RESUMEN

Regulatory T cells (Tregs) are critical mediators of immune tolerance and play a diametric role in cancer and autoimmunity. Tumor-infiltrating Tregs are often associated with poor prognosis in solid tumors because their enrichment in the tumor microenvironment contributes to immunosuppression. Conversely, dysregulation in the Treg compartment can disrupt self-tolerance, leading to autoimmunity. In the present study, we describe what is, to our knowledge, a novel regulator of Tregs, the GTPase activator regulator of G protein 1 (RGS1), demonstrating that RGS1-deficient human Tregs show downregulation of Treg-associated genes and are less immunosuppressive. These RGS1-deficient Tregs exhibit perturbations to the FOXP3-c-MYC transcriptional axis and downstream metabolic and autophagy programs by shifting their energy demands toward glycolysis and rendering them less autophagic. Taken together, RGS1 may serve as an apical node of Treg function by regulating the FOXP3-c-MYC transcriptional axis, thereby providing a therapeutic rationale for targeting RGS1 for treatment of cancer and autoimmune diseases.


Asunto(s)
Enfermedades Autoinmunes , Neoplasias , Proteínas RGS , Humanos , Linfocitos T Reguladores , Enfermedades Autoinmunes/patología , Autoinmunidad , Neoplasias/patología , Autofagia/genética , Factores de Transcripción Forkhead/metabolismo , Microambiente Tumoral , Proteínas RGS/genética , Proteínas RGS/metabolismo
2.
PLoS Comput Biol ; 12(6): e1004987, 2016 06.
Artículo en Inglés | MEDLINE | ID: mdl-27295501

RESUMEN

Characterizing the link between small-scale chromatin structure and large-scale chromosome folding during interphase is a prerequisite for understanding transcription. Yet, this link remains poorly investigated. Here, we introduce a simple biophysical model where interphase chromosomes are described in terms of the folding of chromatin sequences composed of alternating blocks of fibers with different thicknesses and flexibilities, and we use it to study the influence of sequence disorder on chromosome behaviors in space and time. By employing extensive computer simulations, we thus demonstrate that chromosomes undergo noticeable conformational changes only on length-scales smaller than 105 basepairs and time-scales shorter than a few seconds, and we suggest there might exist effective upper bounds to the detection of chromosome reorganization in eukaryotes. We prove the relevance of our framework by modeling recent experimental FISH data on murine chromosomes.


Asunto(s)
Fenómenos Biofísicos/fisiología , Cromatina/química , Cromatina/metabolismo , Cromosomas/química , Cromosomas/metabolismo , Simulación de Dinámica Molecular , Animales , Modelos Químicos , Conformación de Ácido Nucleico
3.
Biophys J ; 108(7): 1727-1738, 2015 Apr 07.
Artículo en Inglés | MEDLINE | ID: mdl-25863064

RESUMEN

DNA unzipping, the separation of its double helix into single strands, is crucial in modulating a host of genetic processes. Although the large-scale separation of double-stranded DNA has been studied with a variety of theoretical and experimental techniques, the minute details of the very first steps of unzipping are still unclear. Here, we use atomistic molecular-dynamics simulations, coarse-grained simulations, and a statistical-mechanical model to study the initiation of DNA unzipping by an external force. Calculation of the potential of mean force profiles for the initial separation of the first few terminal basepairs in a DNA oligomer revealed that forces ranging between 130 and 230 pN are needed to disrupt the first basepair, and these values are an order of magnitude larger than those needed to disrupt basepairs in partially unzipped DNA. The force peak has an echo of ∼50 pN at the distance that unzips the second basepair. We show that the high peak needed to initiate unzipping derives from a free-energy basin that is distinct from the basins of subsequent basepairs because of entropic contributions, and we highlight the microscopic origin of the peak. To our knowledge, our results suggest a new window of exploration for single-molecule experiments.


Asunto(s)
Emparejamiento Base , ADN/química , Simulación de Dinámica Molecular , Termodinámica
4.
Phys Rev Lett ; 109(11): 118103, 2012 Sep 14.
Artículo en Inglés | MEDLINE | ID: mdl-23005680

RESUMEN

Chromatin structure is dynamically organized by chromatin remodelers, motor protein complexes which move and remove nucleosomes. The regulation of remodeler action has recently been proposed to underlie a kinetic proofreading scheme which combines the recognition of histone-tail states and the ATP-dependent loosening of DNA around nucleosomes. Members of the ISWI-family of remodelers additionally recognize linker length between nucleosomes. Here, we show that the additional proofreading step involving linker length alone is sufficient to promote the formation of regular arrays of nucleosomes. ATP-dependent remodeling by bidirectional motors is shown to reinforce positioning as compared to statistical positioning.


Asunto(s)
Adenosina Trifosfatasas/genética , Ensamble y Desensamble de Cromatina/genética , Chaperonas de Histonas/genética , Modelos Genéticos , Nucleosomas/genética , Factores de Transcripción/genética , Adenosina Trifosfatasas/metabolismo , Adenosina Trifosfato/metabolismo , ADN/genética , ADN/metabolismo , Chaperonas de Histonas/metabolismo , Cinética , Nucleosomas/metabolismo , Factores de Transcripción/metabolismo
5.
J Chem Phys ; 135(8): 085105, 2011 Aug 28.
Artículo en Inglés | MEDLINE | ID: mdl-21895223

RESUMEN

In this paper, we show that the coarse grain model for DNA, which has been proposed recently by Knotts et al. [J. Chem. Phys. 126, 084901 (2007)], can be adapted to describe the thermal and mechanical denaturation of long DNA sequences by adjusting slightly the base pairing contribution. The adjusted model leads to (i) critical temperatures for long homogeneous sequences that are in good agreement with both experimental ones and those obtained from statistical models, (ii) a realistic step-like denaturation behaviour for long inhomogeneous sequences, and (iii) critical forces at ambient temperature of the order of 10 pN, close to measured values. The adjusted model furthermore supports the conclusion that the thermal denaturation of long homogeneous sequences corresponds to a first-order phase transition and yields a critical exponent for the critical force equal to σ = 0.70. This model is both geometrically and energetically realistic, in the sense that the helical structure and the grooves, where most proteins bind, are satisfactorily reproduced, while the energy and the force required to break a base pair lie in the expected range. It therefore represents a promising tool for studying the dynamics of DNA-protein specific interactions at an unprecedented detail level.


Asunto(s)
ADN/química , Modelos Moleculares , Desnaturalización de Ácido Nucleico , Cinética , Temperatura
6.
J Phys Chem A ; 114(36): 9662-72, 2010 Sep 16.
Artículo en Inglés | MEDLINE | ID: mdl-20394450

RESUMEN

It has long been asserted that proteins such as transcription factors may locate their target in DNA sequences at rates that surpass by several orders of magnitude the three-dimensional diffusion limit thanks to facilitated diffusion, that is, the combination of one-dimensional (sliding along the DNA) and three-dimensional diffusion. This claim has been supported throughout the years by several mass action kinetic models, while the dynamical model we proposed recently (J. Chem. Phys. 2009, 130, 015103) suggests that acceleration of targeting due to facilitated diffusion cannot be large. In order to solve this apparent contradiction, we performed additional simulations to compare the results obtained with our model to those obtained with the kinetic model of Klenin et al. (Phys. Rev. Lett. 2006, 96, 018104). We show in this paper that the two models actually support each other and agree in predicting a low efficiency for facilitated diffusion. Extrapolation of these results to real systems even indicates that facilitated diffusion necessarily slows down the targeting process compared to three-dimensional diffusion.


Asunto(s)
ADN/química , ADN/metabolismo , Modelos Moleculares , Proteínas/química , Proteínas/metabolismo , Difusión , Cinética , Conformación Molecular , Unión Proteica
7.
Electrophoresis ; 30(21): 3649-56, 2009 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-19862742

RESUMEN

2-D display is a fast and economical way of visualizing polymorphism and comparing genomes, which is based on the separation of DNA fragments in two steps, first according to their size and then to their sequence composition. In this article, we present an exhaustive study of the numerical issues associated with a model aimed at predicting the final absolute locations of DNA fragments in 2-D display experiments. We show that simple expressions for the mobility of DNA fragments in both dimensions allow one to reproduce experimental final absolute locations better than experimental uncertainties. However, our simulations also point out that the results of 2-D display experiments are not sufficient to determine the best set of parameters for the modeling of fragments separation in the second dimension and that additional detailed measurements of the mobility of a few sequences are necessary to achieve this goal. We hope that this work will help in establishing simulations as a powerful tool to optimize experimental conditions without having to perform a large number of preliminary experiments and to estimate whether 2-D DNA display is suited to identify a mutation or a genetic difference that is expected to exist between the genomes of closely related organisms.


Asunto(s)
Composición de Base , ADN/química , Electroforesis en Gel Bidimensional/métodos , Genómica/métodos , Algoritmos , Bacteriófago lambda/genética , Simulación por Computador , Modelos Genéticos , Desnaturalización de Ácido Nucleico , Mapeo Restrictivo
8.
J Chem Phys ; 130(1): 015103, 2009 Jan 07.
Artículo en Inglés | MEDLINE | ID: mdl-19140636

RESUMEN

We propose a dynamical model for nonspecific DNA-protein interaction, which is based on the "bead-spring" model previously developed by other groups, and investigate its properties using Brownian dynamics simulations. We show that the model successfully reproduces some of the observed properties of real systems and predictions of kinetic models. For example, sampling of the DNA sequence by the protein proceeds via a succession of three-dimensional motion in the solvent, one-dimensional sliding along the sequence, short hops between neighboring sites, and intersegmental transfers. Moreover, facilitated diffusion takes place in a certain range of values of the protein effective charge, that is, the combination of one-dimensional sliding and three-dimensional motion leads to faster DNA sampling than pure three-dimensional motion. At last, the number of base pairs visited during a sliding event is comparable to the values deduced from single-molecule experiments. We also point out and discuss some discrepancies between the predictions of this model and some recent experimental results as well as some hypotheses and predictions of kinetic models.


Asunto(s)
ADN/química , Modelos Químicos , Proteínas/química , Difusión , Cinética
9.
J Phys Condens Matter ; 21(3): 034101, 2009 Jan 21.
Artículo en Inglés | MEDLINE | ID: mdl-21817246

RESUMEN

We recently proposed a dynamical mesoscopic model for DNA, which is based, like the statistical ones, on site-dependent finite stacking and pairing enthalpies. In the present paper, we first describe how the parameters of this model are varied to get predictions in better agreement with experimental results that were not addressed up to now, like mechanical unzipping, the evolution of the critical temperature with sequence length and temperature resolution. We show that the model with the new parameters provides results that are in quantitative agreement with those obtained from statistical models. Investigation of the critical properties of the dynamical model suggests that DNA denaturation looks like a first-order phase transition in a broad temperature interval, but that there necessarily exists, very close to the critical temperature, a crossover to another regime. The exact nature of the melting dynamics in this second regime still has to be elucidated. We finally point out that the descriptions of the physics of the melting transition inferred from statistical and dynamical models are not completely identical and discuss the relevance of our model from the biological point of view.

10.
Sci Rep ; 6: 25736, 2016 05 11.
Artículo en Inglés | MEDLINE | ID: mdl-27166749

RESUMEN

Kinetochores are protein complexes on the chromosomes, whose function as linkers between spindle microtubules and chromosomes is crucial for proper cell division. The mechanisms that facilitate kinetochore capture by microtubules are still unclear. In the present study, we combine experiments and theory to explore the mechanisms of kinetochore capture at the onset of meiosis I in fission yeast. We show that kinetochores on homologous chromosomes move together, microtubules are dynamic and pivot around the spindle pole, and the average capture time is 3-4 minutes. Our theory describes paired kinetochores on homologous chromosomes as a single object, as well as angular movement of microtubules and their dynamics. For the experimentally measured parameters, the model reproduces the measured capture kinetics and shows that the paired configuration of kinetochores accelerates capture, whereas microtubule pivoting and dynamics have a smaller contribution. Kinetochore pairing may be a general feature that increases capture efficiency in meiotic cells.


Asunto(s)
Cinetocoros/metabolismo , Meiosis , Microtúbulos/metabolismo , Schizosaccharomyces/citología , Schizosaccharomyces/metabolismo , Núcleo Celular/metabolismo , Simulación por Computador , Modelos Biológicos , Factores de Tiempo , Imagen de Lapso de Tiempo
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