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Query: UMLS:C0848237 (
acute stress
)
4,619
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Caenorhabditis elegans life span, stress resistance and metabolism are regulated by the Insulin/IGF-1/
DAF
-2/
DAF
-16 pathway.
DAF
-16, a member of FOXO/Forkhead transcription factor family, can be targeted by 14-3-3 proteins to promote stress resistance. We have identified a 14-3-3 C. elegans homolog which promotes life span by both
DAF
-2-dependent and -independent mechanisms and by an unexpected
DAF
-16-independent mechanism. Our results demonstrate that C. elegans 14-3-3 proteins modulate stress-responsive genes throughout adulthood. In conclusion, 14-3-3 can be considered as an
acute stress
-responsive regulator as well as a sustained modulator of the Insulin/IGF-1/
DAF
-2/
DAF
-16 regulatory pathway in promoting life expectancy of growing old worms.
...
PMID:14-3-3 regulates life span by both DAF-16-dependent and -independent mechanisms in Caenorhabditis elegans. 1842 31
The insulin-like signaling (ILS) pathway regulates metabolism and is known to modulate adult life span in C. elegans. Altered stress responses and resistance to a wide range of stressors are also associated with changes in ILS and contribute to enhanced longevity. The transcription factors
DAF
-16 and HSF-1 are key effectors of the longevity phenotype. We demonstrate that increased intrinsic thermotolerance, due to lower ILS, is not dependent on stress-induced transcriptional responses but instead requires active protein translation. Translation profiling experiments reveal genes that are posttranscriptionally regulated in response to altered ILS during heat shock in a
DAF
-16-dependent manner. Furthermore, several novel proteins are specifically required for ILS effects on thermotolerance. We propose that lowered ILS results in metabolic and physiological changes. These
DAF
-16-induced changes precondition a translational response under
acute stress
to modulate survival.
...
PMID:Insulin-like signaling determines survival during stress via posttranscriptional mechanisms in C. elegans. 2081 92
C. elegans is widely used as a model organism in the study of aging and evaluation of anti-aging drugs due to its unique characteristics. In this work, we set out to investigate polydatin, a natural resveratrol glycoside, and its role in extending lifespan, improving oxidative stress resistance, and the possible regulation mechanism involved in the Insulin/IGF-1 signaling (IIS) pathway for the first time by using a flexible microfluidic device. The effects of polydatin on the lifespan, oxidative stress resistance, mobility and the expression of aging-related proteins and genes were explored. Polydatin was found to significantly extend the mean lifespan of worms by up to 30.7% and 62.1% under normal and
acute stress
conditions respectively. It improved the expression of the inducible oxidative stress protein (GST-4) and corresponding stroke frequencies in the transgenic CL2166 strain. Moreover, it also increased SOD-3::GFP expression in CF1553 worms and promoted
DAF
-16 nucleus translocation in TJ356 worms. The longevity-extending role of polydatin is partly attributed to its anti-oxidative activity and increased oxidative stress resistance by regulating the stress-resistance related proteins SOD-3, and daf-16 expression at protein and mRNA levels involved in the IIS pathway. The established microfluidic platform is capable of flexible operation with multiple functions, which not only supports the individual worm's long-term culture with sufficient nutrient exchange, but also facilitates mobility monitoring of the worm, immobilizing and imaging in a controllable and parallel manner. These interesting findings reported here highlight the significance of the natural compound polydatin in the study of aging-related diseases, and the utility of the microfluidic platform for applications in aging studies.
...
PMID:Probing the anti-aging role of polydatin in Caenorhabditis elegans on a chip. 2430
Protein homeostasis is remodeled early in Caenorhabditis elegans adulthood, resulting in a sharp decline in folding capacity and reduced ability to cope with chronic and
acute stress
. Endocrine signals from the reproductive system can ameliorate this proteostatic collapse and reshape the quality control network. Given that environmental conditions, such as food availability, impact reproductive success, we asked whether conditions of dietary restriction (DR) can also reverse the decline in quality control function at the transition to adulthood, and if so, whether gonadal signaling and dietary signaling remodel the quality control network in a similar or different manner. For this, we employed the eat-2 genetic model and bacterial deprivation protocol. We found that animals under DR maintained heat shock response activation and high protein folding capacity during adulthood. However, while gonadal signaling required
DAF
-16, DR-associated rescue of quality control functions required the antagonistic transcription factor, PQM-1. Bioinformatic analyses supported a role for
DAF
-16 in
acute stress
responses and a role for PQM-1 in cellular maintenance and chronic stress. Comparing the stress activation and folding capacities of dietary- and gonadal-signaling mutant animals confirmed this prediction and demonstrated that each differentially impacts cellular quality control capabilities. These data suggest that the functional mode of cellular quality control networks can be differentially remodeled, affecting an organism's ability to respond to acute and chronic stresses during adulthood.
...
PMID:Dietary restriction and gonadal signaling differentially regulate post-development quality control functions in Caenorhabditis elegans. 3064 46
Aging is accompanied by a progressive decline in immune function termed "immunosenescence". Deficient surveillance coupled with the impaired function of immune cells compromises host defense in older animals. The dynamic activity of regulatory modules that control immunity appears to underlie age-dependent modifications to the immune system. In the roundworm
Caenorhabditis elegans
levels of PMK-1 p38 MAP kinase diminish over time, reducing the expression of immune effectors that clear bacterial pathogens. Along with the PMK-1 pathway, innate immunity in
C. elegans
is regulated by the insulin signaling pathway. Here we asked whether
DAF
-16, a Forkhead box (FOXO) transcription factor whose activity is inhibited by insulin signaling, plays a role in host defense later in life. While in younger
C. elegans
DAF
-16 is inactive unless stimulated by environmental insults, we found that even in the absence of
acute stress
the transcriptional activity of
DAF
-16 increases in an age-dependent manner. Beginning in the reproductive phase of adulthood,
DAF
-16 upregulates a subset of its transcriptional targets, including genes required to kill ingested microbes. Accordingly,
DAF
-16 has little to no role in larval immunity, but functions specifically during adulthood to confer resistance to bacterial pathogens. We found that
DAF
-16-mediated immunity in adults requires SMK-1, a regulatory subunit of the PP4 protein phosphatase complex. Our data suggest that as the function of one branch of the innate immune system of
C. elegans
(PMK-1) declines over time,
DAF
-16-mediated immunity ramps up to become the predominant means of protecting adults from infection, thus reconfiguring immunity later in life.
...
PMID:DAF-16 and SMK-1 Contribute to Innate Immunity During Adulthood in
Caenorhabditis elegans
. 3216 Oct 87
