Your search keyword '"Aging/physiology"' showing total 3 results

1. Microgravity Effects and Aging Physiology: Similar Changes or Common Mechanisms?

Author

Ratushnyy, Andrey Yu. and Buravkova, Ludmila B.

Subjects

*PHYSIOLOGY, *REDUCED gravity environments, *AGING, *SENSORY deprivation, *SYSTEM failures

Abstract

Despite the use of countermeasures (including intense physical activity), cosmonauts and astronauts develop muscle atony and atrophy, cardiovascular system failure, osteopenia, etc. All these changes, reminiscent of age-related physiological changes, occur in a healthy person in microgravity quite quickly – within a few months. Adaptation to the lost of gravity leads to the symptoms of aging, which are compensated after returning to Earth. The prospect of interplanetary flights raises the question of gravity thresholds, below which the main physiological systems will decrease their functional potential, similar to aging, and affect life expectancy. An important role in the aging process belongs to the body's cellular reserve – progenitor cells, which are involved in physiological remodeling and regenerative/reparative processes of all physiological systems. With age, progenitor cell count and their regenerative potential decreases. Moreover, their paracrine profile becomes pro-inflammatory during replicative senescence, disrupting tissue homeostasis. Mesenchymal stem/stromal cells (MSCs) are mechanosensitive, and therefore deprivation of gravitational stimulus causes serious changes in their functional status. The review compares the cellular effects of microgravity and changes developing in senescent cells, including stromal precursors. [ABSTRACT FROM AUTHOR]

Published

2023

2. Combined QTL mapping, physiological and transcriptomic analyses to identify candidate genes involved in Brassica napus seed aging.

Author

Wang, Tengyue, Hou, Lintao, Jian, Hongju, Di, Feifei, Li, Jiana, and Liu, Liezhao

Subjects

SEED aging, OILSEED plants, PHENOTYPES, CHROMOSOMES, ANTIOXIDANTS

Abstract

Seed aging is an inevitable problem in the germplasm conservation of oil crops. Thus, clarifying the genetic mechanism of seed aging is important for rapeseed breeding. In this study, Brassica napus seeds were exposed to an artificial aging environment (40 °C and 90% relative humidity). Using a population of 172 recombinant inbred lines, 13 QTLs were detected on 8 chromosomes, which explained ~ 9.05% of the total phenotypic variation. The QTLs q2015AGIA-C08 and q2016AGI-C08-2 identified in the two environments were considered the same QTL. After artificial aging, lower germination index, increased relative electrical conductivity, malondialdehyde and proline content, and reduced soluble sugar, protein content and antioxidant enzyme activities were detected. Furthermore, seeds of extreme lines that were either left untreated (R0 and S0) or subjected to 15 days of artificial aging (R15 and S15) were used for transcriptome sequencing. In total, 2843, 1084, 429 and 1055 differentially expressed genes were identified in R15 vs. R0, S15 vs. S0, R0 vs. S0 and R15 vs. S15, respectively. Through integrated QTL mapping and RNA-sequencing analyses, seven genes, such as BnaA03g37460D, encoding heat shock transcription factor C1, and BnaA03g40360D, encoding phosphofructokinase 4, were screened as candidate genes involved in seed aging. Further researches on these candidate genes could broaden our understanding of the regulatory mechanisms of seed aging. [ABSTRACT FROM AUTHOR]

Published

2018

3. Erythrocyte membrane fluidity and indices of plasmatic oxidative damage after acute physical exercise in humans.

Author

Berzosa, C., Gómez-Trullén, E. M., Piedrafita, E., Cebrián, I., Martínez-Ballarín, E., Miana-Mena, F. J., Fuentes-Broto, L., García, J. J., Gómez-Trullén, E M, Cebrián, I, Martínez-Ballarín, E, and García, J J

Subjects

EXERCISE physiology, ERYTHROCYTE membranes, FLUIDITY of biological membranes, CELLULAR signal transduction, MALONDIALDEHYDE, FLUORESCENCE spectroscopy, ERYTHROCYTES, ERYTHROCYTE metabolism, BIOCHEMISTRY, BLOOD plasma, COMPARATIVE studies, EXERCISE, HEALTH status indicators, PHENOMENOLOGY, RESEARCH methodology, MEDICAL cooperation, OXIDATION-reduction reaction, RESEARCH, TIME, OXIDATIVE stress, EVALUATION research, PHYSIOLOGY

Abstract

Optimal levels of membrane fluidity are essential for numerous cell functions including cell growth, solute transport and signal transduction. Since exercise enhances free radical production, our aim was to evaluate in healthy male subjects the effects of an acute bout of maximal and submaximal exercise on the erythrocyte membrane fluidity and its possible relation to the oxidative damage overproduction due to exercise. Subjects (n = 34) performed three cycloergometric tests: a continuous progressive exercise, a strenuous exercise until exhaustion and an acute bout of exercise at an intensity corresponding to 70% of maximal work capacity for 30 min. Venous blood samples were collected before and immediately after these exercises. Erythrocyte membrane fluidity was assessed by fluorescence spectroscopy. Plasma malondialdehyde (MDA) and 4-hydroxyalkenals (4-HDA) concentrations and carbonyl content of plasmatic proteins were used as an index of lipid and protein oxidation, respectively. Exercise produced a dramatic drop in the erythrocyte membrane fluidity as compared to resting time, but this was not accompanied by significant changes in the plasmatic MDA and 4-HDA concentrations. The highest erythrocyte membrane rigidity was detected immediately after strenuous exercise until exhaustion was performed. Protein carbonyl levels were higher after exhaustive exercises than at rest. Continuous progressive and strenuous exercises until exhaustion, but not submaximal workload, resulted in a significant enhanced accumulation of carbonylated proteins in the plasma. These findings are consistent with the idea that exercise exaggerates oxidative damage, which may contribute, at least partially, to explain the rigidity in the membrane of the erythrocytes due to acute exercise. [ABSTRACT FROM AUTHOR]

Published

2011