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1.
Cell Rep ; 40(9): 111290, 2022 08 30.
Artigo em Inglês | MEDLINE | ID: mdl-36044860

RESUMO

Adaptive stress resistance in microbes is mostly attributed to the expression of stress response genes, including heat-shock proteins. Here, we report a response of E. coli to heat stress caused by degradation of an enzyme in the methionine biosynthesis pathway (MetA). While MetA degradation can inhibit growth, which by itself is detrimental for fitness, we show that it directly benefits survival at temperatures exceeding 50°C, increasing survival chances by more than 1,000-fold. Using both experiments and mathematical modeling, we show quantitatively how protein expression, degradation rates, and environmental stressors cause long-term growth inhibition in otherwise habitable conditions. Because growth inhibition can be abolished with simple mutations, namely point mutations of MetA and protease knockouts, we interpret the breakdown of methionine synthesis as a system that has evolved to halt growth at high temperatures, analogous to "thermal fuses" in engineering that shut off electricity to prevent overheating.


Assuntos
Proteínas de Escherichia coli , Escherichia coli , Resposta ao Choque Térmico , Homoserina O-Succiniltransferase , Escherichia coli/genética , Escherichia coli/fisiologia , Proteínas de Escherichia coli/genética , Proteínas de Escherichia coli/metabolismo , Proteínas de Choque Térmico/genética , Proteínas de Choque Térmico/metabolismo , Resposta ao Choque Térmico/genética , Resposta ao Choque Térmico/fisiologia , Temperatura Alta , Metionina/metabolismo , Temperatura
2.
Mol Syst Biol ; 16(6): e9478, 2020 06.
Artigo em Inglês | MEDLINE | ID: mdl-32500952

RESUMO

Fitness of bacteria is determined both by how fast cells grow when nutrients are abundant and by how well they survive when conditions worsen. Here, we study how prior growth conditions affect the death rate of Escherichia coli during carbon starvation. We control the growth rate prior to starvation either via the carbon source or via a carbon-limited chemostat. We find a consistent dependence where death rate depends on the prior growth conditions only via the growth rate, with slower growth leading to exponentially slower death. Breaking down the observed death rate into two factors, maintenance rate and recycling yield, reveals that slower growing cells display a decreased maintenance rate per cell volume during starvation, thereby decreasing their death rate. In contrast, the ability to scavenge nutrients from carcasses of dead cells (recycling yield) remains constant. Our results suggest a physiological trade-off between rapid proliferation and long survival. We explore the implications of this trade-off within a mathematical model, which can rationalize the observation that bacteria outside of lab environments are not optimized for fast growth.


Assuntos
Carbono/farmacologia , Escherichia coli/citologia , Escherichia coli/crescimento & desenvolvimento , Viabilidade Microbiana/efeitos dos fármacos , Adaptação Fisiológica/efeitos dos fármacos , Proteínas de Bactérias/metabolismo , Cinética , Modelos Biológicos , Proteoma/metabolismo , Fator sigma/metabolismo
3.
Cell Syst ; 9(1): 64-73.e3, 2019 07 24.
Artigo em Inglês | MEDLINE | ID: mdl-31326371

RESUMO

To break down organismal fitness into molecular contributions, costs and benefits of cellular components must be analyzed in all phases of the organism's life cycle. Here, we establish the required quantitative approach for the death phase of the model bacterium Escherichia coli. We show that in carbon starvation, an exponential decay of viability emerges as a collective phenomenon, with viable cells recycling nutrients from cell carcasses to maintain viability. The observed collective death rate is determined by the maintenance rate of viable cells and the amount of nutrients recovered from dead cells. Using this relation, we study the cost of a wasteful enzyme during starvation and the benefit of the stress response sigma factor RpoS. While the enzyme increases maintenance and thereby the death rate, RpoS improves biomass recycling, decreasing the death rate. Our approach thus enables quantitative analyses of how cellular components affect the survival of non-growing cells.


Assuntos
Proteínas de Bactérias/metabolismo , Biotecnologia/economia , Sobrevivência Celular/fisiologia , Escherichia coli/fisiologia , Modelos Biológicos , Fator sigma/metabolismo , Biomassa , Carbono/metabolismo , Custos e Análise de Custo , Regulação Bacteriana da Expressão Gênica
4.
Sci Rep ; 7(1): 12737, 2017 10 06.
Artigo em Inglês | MEDLINE | ID: mdl-28986543

RESUMO

In this paper we discuss the applicability of numerical descriptors and statistical physics concepts to characterize complex biological systems observed at microscopic level through organ on chip approach. To this end, we employ data collected on a microfluidic platform in which leukocytes can move through suitably built channels toward their target. Leukocyte behavior is recorded by standard time lapse imaging. In particular, we analyze three groups of human peripheral blood mononuclear cells (PBMC): heterozygous mutants (in which only one copy of the FPR1 gene is normal), homozygous mutants (in which both alleles encoding FPR1 are loss-of-function variants) and cells from 'wild type' donors (with normal expression of FPR1). We characterize the migration of these cells providing a quantitative confirmation of the essential role of FPR1 in cancer chemotherapy response. Indeed wild type PBMC perform biased random walks toward chemotherapy-treated cancer cells establishing persistent interactions with them. Conversely, heterozygous mutants present a weaker bias in their motion and homozygous mutants perform rather uncorrelated random walks, both failing to engage with their targets. We next focus on wild type cells and study the interactions of leukocytes with cancerous cells developing a novel heuristic procedure, inspired by Lyapunov stability in dynamical systems.


Assuntos
Comunicação Celular , Leucócitos/patologia , Neoplasias/patologia , Linhagem Celular Tumoral , Movimento Celular , Humanos , Dispositivos Lab-On-A-Chip , Movimento (Física)
5.
Sci Rep ; 4: 6639, 2014 Oct 16.
Artigo em Inglês | MEDLINE | ID: mdl-25322144

RESUMO

Scope of the present work is to infer the migratory ability of leukocytes by stochastic processes in order to distinguish the spontaneous organization of immune cells against an insult (namely cancer). For this purpose, spleen cells from immunodeficient mice, selectively lacking the transcription factor IRF-8 (IRF-8 knockout; IRF-8 KO), or from immunocompetent animals (wild-type; WT), were allowed to interact, alternatively, with murine B16.F10 melanoma cells in an ad hoc microfluidic environment developed on a LabOnChip technology. In this setting, only WT spleen cells were able to establish physical interactions with melanoma cells. Conversely, IRF-8 KO immune cells exhibited poor dynamical reactivity towards the neoplastic cells. In the present study, we collected data on the motility of these two types of spleen cells and built a complete set of observables that recapitulate the biological complexity of the system in these experiments. With remarkable accuracy, we concluded that the IRF-8 KO cells performed pure uncorrelated random walks, while WT splenocytes were able to make singular drifted random walks that collapsed on a straight ballistic motion for the system as a whole, hence giving rise to a highly coordinate response. These results may provide a useful system to quantitatively analyse the real time cell-cell interactions and to foresee the behavior of immune cells with tumor cells at the tissue level.


Assuntos
Fatores Reguladores de Interferon/genética , Leucócitos/patologia , Melanoma Experimental/patologia , Neoplasias Esplênicas/metabolismo , Animais , Movimento Celular , Técnicas de Cocultura , Humanos , Leucócitos/metabolismo , Melanoma Experimental/genética , Camundongos , Camundongos Knockout , Baço/citologia , Baço/metabolismo , Baço/patologia , Neoplasias Esplênicas/genética , Neoplasias Esplênicas/patologia
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