1.Stress and hippocampus.
Journal of Forensic Medicine 2002;18(1):48-51
This review summarizes the present advance of effects of stress on hippocampal structure and function and the role of hippocampus in feedback regulation of thalamic-pituitary-adrenocortical (HPA) axis during stress. It shows that stress can affect hippocampal structure and function, on the other hand, the hippocampus can also suppress the stress reaction through the feedback regulation of HPA axis, but chronic stress can attenuate this regulation, then significantly impair its structure and function.
Animals
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Hippocampus/physiopathology*
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Humans
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Hypothalamo-Hypophyseal System/physiology*
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Pituitary-Adrenal System/physiology*
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Stress, Physiological/physiopathology*
2.Posttraumatic stress and immune dissonance.
Chinese Journal of Traumatology 2008;11(4):203-208
Stress or neuroendocrine response usually occurs soon after trauma, which is central to the maintenance of post-traumatic homeostasis. Immune inflammatory response has been recognized to be a key element both in the pathogenesis of post-traumatic complications and in tissue repair. Despite the existence of multiple and intricate interconnected neuroendocrine pathways, the hypothalamic-pituitary-adrenal (HPA) axis and the sympathetic nervous system have been considered to be the most important in trauma. Although the short-term and appropriate activation of these stress responses is vital to the host's adaptation, prolonged duration and exaggerative magnitude of their activity leads to deleterious effects on immune function in trauma, causing immune dissonance. The overall appropriate and controlled activation and termination of the neuroendocrine responses that mediate the necessary physiological functions involved in maintaining and restoring homeostasis in the event of trauma are of critical importance. This review will describe the effects of some important neuroendocrine responses on immune system. Present evidences indicate that the neuroendocrine and immune systems form a cohesive and integrated early host response to trauma, and identify areas for further research to fully elucidate the regulatory role of neuroendocrine system in trauma.
Humans
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Hypothalamo-Hypophyseal System
;
physiology
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Immune System
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physiology
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Parasympathetic Nervous System
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physiology
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Pituitary-Adrenal System
;
physiology
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Stress Disorders, Post-Traumatic
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immunology
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physiopathology
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Sympathetic Nervous System
;
physiology
3.Comparisons of endocrine hormones levels between Tibetan antelope and Tibetan sheep.
Xue-Feng ZHANG ; Ying-Zhong YANG ; Zhi-Wei PEI ; Sheng-Yu WANG ; Rong CHANG ; Ri-Li GE
Acta Physiologica Sinica 2011;63(4):342-346
The Tibetan antelope, a prototype mammal, has developed a unique adaptation to extreme high altitude-associated hypoxia. To investigate the role of the endocrine system in adaptation to high altitude in the Tibetan antelope, comparisons of endocrine hormones levels between Tibetan antelope (n = 9) and Tibetan sheep (n = 10) were performed. Both two kinds of animals were captured at an altitude of 4 300 m and then transported to experimental base at 2 800 m altitude. The blood samples were drawn from right external jugular vein in the next morning, and the 20 hormones in hypothalamus-adenohypophysis-peripheral hormonal axis were measured with radioimmunoassay or enzyme-linked immunosorbent assay. Heart rate (HR), systolic blood pressure (SBP), diastolic blood pressure (DBP) and mean pulmonary arterial pressure (mPAP) were recorded using catheterization. Moreover, hemoglobin (Hb) content was measured by blood analyser. The results showed that, the levels of FT(3), FT(4) and Ang II in Tibetan antelope were significantly lower than those in Tibetan sheep, whereas TRH, CRH, GHRH, F, E(2), Ald, ACTH and CGRP levels were significantly greater in Tibetan antelope than those in the Tibetan sheep. Compared with Tibetan sheep, Tibetan antelope showed lower HR, mPAP, SBP, DBP and Hb content. In Tibetan antelope and Tibetan sheep, both Hb and Ang II were correlated positively with respective mPAP. In Tibetan antelope, FT(3) level was correlated positively with GH and negatively with ACTH. These results suggest that the endocrine system of Tibetan antelope is characterized by low energy expenditure and high stress, which may be one of the mechanisms underlying the Tibetan antelope adaptation to chronic hypoxia.
Adaptation, Physiological
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physiology
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Altitude
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Animals
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Antelopes
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blood
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Hormones
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blood
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Hypothalamo-Hypophyseal System
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metabolism
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physiology
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Male
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Sheep
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blood
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Tibet
4.Progress in the research of negative feedback effect of thyroglobulin.
Fei CHEN ; Hongjuan WANG ; Qiang LI ; Zhichao LI ; Yuqian LUO
Journal of Southern Medical University 2019;39(1):125-126
Thyroglobulin is the most important and abundant protein in thyroid follicles and has been widely studied as a tumor marker of thyroid cancer recurrence and persistence. Tg is considered the material basis of thyroid hormone synthesis and does not participate in the regulation of thyroid hormone synthesis and secretion. This review summarizes the recent progress in the research of thyroid hormone synthesis and secretion regulation via a negative feedback regulation mechanism by the thyroid-hypothalamus-pituitary axis. Thyroglobulin can negatively regulate the synthesis of thyroid hormone by thyroid follicular cells and antagonize the positive regulation of thyrotropin TSH. The function of thyroid follicular cells is presumably a result of Tg and TSH interaction, and a follicular cycle model is proposed to explain the causes of follicular heterogeneity in glands. We also discuss the prospects and clinical significance of studies into the negative feedback regulation mechanism of the thyroid-hypothalamus-pituitary axis and compare two theories for this mechanism.
Feedback, Physiological
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Humans
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Hypothalamo-Hypophyseal System
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physiology
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Neoplasm Recurrence, Local
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Thyroglobulin
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metabolism
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Thyroid Gland
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physiology
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Thyroid Hormones
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metabolism
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Thyrotropin
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metabolism
5.Gut Microbiota-brain Axis.
Hong-Xing WANG ; Yu-Ping WANG ;
Chinese Medical Journal 2016;129(19):2373-2380
OBJECTIVETo systematically review the updated information about the gut microbiota-brain axis.
DATA SOURCESAll articles about gut microbiota-brain axis published up to July 18, 2016, were identified through a literature search on PubMed, ScienceDirect, and Web of Science, with the keywords of "gut microbiota", "gut-brain axis", and "neuroscience".
STUDY SELECTIONAll relevant articles on gut microbiota and gut-brain axis were included and carefully reviewed, with no limitation of study design.
RESULTSIt is well-recognized that gut microbiota affects the brain's physiological, behavioral, and cognitive functions although its precise mechanism has not yet been fully understood. Gut microbiota-brain axis may include gut microbiota and their metabolic products, enteric nervous system, sympathetic and parasympathetic branches within the autonomic nervous system, neural-immune system, neuroendocrine system, and central nervous system. Moreover, there may be five communication routes between gut microbiota and brain, including the gut-brain's neural network, neuroendocrine-hypothalamic-pituitary-adrenal axis, gut immune system, some neurotransmitters and neural regulators synthesized by gut bacteria, and barrier paths including intestinal mucosal barrier and blood-brain barrier. The microbiome is used to define the composition and functional characteristics of gut microbiota, and metagenomics is an appropriate technique to characterize gut microbiota.
CONCLUSIONSGut microbiota-brain axis refers to a bidirectional information network between the gut microbiota and the brain, which may provide a new way to protect the brain in the near future.
Animals ; Brain ; metabolism ; physiology ; Central Nervous System ; metabolism ; physiology ; Gastrointestinal Microbiome ; physiology ; Gastrointestinal Tract ; microbiology ; Humans ; Hypothalamo-Hypophyseal System ; metabolism ; physiology ; Pituitary-Adrenal System ; metabolism ; physiology
6.Study on the regulation of HPAT axis molecular network in patients with aging-physiologic shen-deficiency syndrome.
Chinese Journal of Integrated Traditional and Western Medicine 2004;24(9):841-843
Aging
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genetics
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physiology
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Diagnosis, Differential
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Humans
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Hypothalamo-Hypophyseal System
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physiology
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Kidney
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physiology
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Medicine, Chinese Traditional
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Neuroimmunomodulation
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physiology
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Pituitary-Adrenal System
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physiology
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Thymus Gland
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physiology
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Yang Deficiency
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physiopathology
7.Effects of neonatal recurrent seizures on glucocorticoid receptor expression in the rat brain.
Tuan-Mei WANG ; Tao BO ; Man-Zhi WANG ; Xiao-Hua ZHU ; Jian LI ; Xing-Fang LI ; Ding-An MAO
Chinese Journal of Contemporary Pediatrics 2010;12(1):47-50
OBJECTIVETo investigate the effets of flurothyl-induced neonatal recurrent seizures on glucocorticoid receptor (GR) expression in the rat brain.
METHODSForty-eight seven-day-old Sprague-Dawley rats were randomly divided into two groups: control and seizure. Seizures were induced by inhalant flurothyl daily for six consecutive days. Brains were sampled on postnatal days 13, 15 and 19. The expression of GR protein in the cerebral cortex was detected by Western blot and immunohistochemical method.
RESULTSThe expression of GR in the cerebral cortical plasma protein was significantly lower in the seizure group than in the control group on postnatal day 15. The expression of GR protein in the cerebral cortical nuclear protein decreased significantly in the seizure group compared with that in the control group on postnatal days 15 and 19 (p<0.05). Compared to the control group, the accumulated optical density (AOD) of GR immunoreactivity (IR) decreased significantly in the parietal cortex on postnatal day 13 (p<0.05), the AOD of GR IR decreased significantly in the parietal cortex and the temporal cortex on postnatal day 15 (p<0.05), and the AOD of GR IR decreased significantly in the parietal cortex, temporal cortex and the frontal cortex in the seizure group on postnatal day 19 (p<0.05).
CONCLUSIONSRecurrent seizures in neonatal rats result in abnormal GR expression in the cerebral cortex which might play an important role in short-term brain injury induced by early recurrent seizures.
Animals ; Blotting, Western ; Cerebral Cortex ; chemistry ; Female ; Hypothalamo-Hypophyseal System ; physiology ; Immunohistochemistry ; Male ; Pituitary-Adrenal System ; physiology ; Rats ; Rats, Sprague-Dawley ; Receptors, Glucocorticoid ; analysis ; physiology ; Recurrence ; Seizures ; metabolism
8.Cortisol Awakening Response and Nighttime Salivary Cortisol Levels in Healthy Working Korean Subjects.
Il young SHIN ; Ryun sup AHN ; Sae il CHUN ; Young jin LEE ; Min soo KIM ; Chea kwan LEE ; Simon SUNG
Yonsei Medical Journal 2011;52(3):435-444
PURPOSE: Cortisol awakening response (CAR) and nighttime cortisol levels have been used as indices of adrenocortical activity. However, population-based statistical information regarding these indices has not been provided in healthy subjects. This study was carried out to provide basic statistical information regarding these indices. MATERIALS AND METHODS: Cortisol levels were measured in saliva samples collected immediately upon awakening (0 min), 30 min after awakening and in the nighttime on two consecutive days in 133 healthy subjects. RESULTS: We determined the mean [standard deviation (SD)], median (interquartile range) and 5th-95th percentile range for each measure and auxiliary indices for CAR, i.e., the secreted cortisol concentration within 30 min of awakening (CARscc) and absolute and relative increases in cortisol level within 30 min of awakening (CARi and CARi%, respectively). We also determined these values for auxiliary indices derived from nighttime cortisol level, i.e., the ratio of cortisol level 30 min after awakening (CA30 min) to nighttime level (CA30 min/NC), as well as absolute and relative decreases in cortisol levels from CA30 min to nighttime (DCd and DCd%, respectively). We found no significant differences in cortisol level for any time point or in auxiliary indices between collection days, genders and ages. CONCLUSION: The provided descriptive information and statistics on the CAR and nighttime cortisol level will be helpful to medical specialists and researchers involved in hypothalamus-pituitary-adrenal axis assessment.
Adult
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Circadian Rhythm
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Female
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Humans
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Hydrocortisone/*metabolism
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Hypothalamo-Hypophyseal System/physiology
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Male
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Middle Aged
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Pituitary-Adrenal System/physiology
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Republic of Korea
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Saliva/*metabolism
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Wakefulness
9.Effects of early enriched environment on long-term behavior development and serum corticosterone level in rats.
Liang MA ; Yan-Hui CHEN ; Li-Xin WEI
Chinese Journal of Contemporary Pediatrics 2011;13(7):586-589
OBJECTIVETo study the effects of early enriched environment on behavioral development and serum corticosterone level in rats.
METHODSForty-five neonatal rats were randomly assigned into three groups:blank control, enriched environment and isolated environment. The open-field environment test and the Lat maze test were performed to assess anxiety/irritability-related behaviors of the rats on postnatal day 31. The level of serum corticosterone was measured by radioimmunology assay.
RESULTSThe level of serum corticosterone in the enriched environment group (8±3 ng/mL) was significantly lower than the blank control (11±4 ng/mL) and the isolated groups (22±4 ng/mL) (P<0.01). The open-field environment test showed that the numbers of passing panels, keeping an erect posture and grooming were less than those in the blank control and the isolated groups (P<0.05). According to the results of the Lat maze test, the frequencies of running across the corner, keeping an erect posture and leaning against the wall in the enriched environment group were less than those in the blank control and the isolated groups (P<0.05).
CONCLUSIONSEarly enriched environment can decrease serum corticosterone level and thus alleviates anxiety and irritability in rats. It may play an important role in the improvement of brain development.
Animals ; Behavior, Animal ; Brain ; growth & development ; Corticosterone ; blood ; Environment ; Female ; Hypothalamo-Hypophyseal System ; physiology ; Maze Learning ; Pituitary-Adrenal System ; physiology ; Rats ; Rats, Sprague-Dawley
10.Developmental characteristics of circadian rhythms in hypothalamic-pituitary-adrenal axis during puberty.
X N DUAN ; S Q YAN ; S M WANG ; J J HU ; J FANG ; C GONG ; Y H WAN ; P Y SU ; F B TAO ; Y SUN
Chinese Journal of Epidemiology 2018;39(8):1086-1090
Objective: To explore the developmental characteristics of circadian rhythms in hypothalamus-pituitary-adrenal (HPA) axis during puberty. Methods: A total of 1 070 students from Grade 2-3 in 3 primary schools in Ma'anshan city, Anhui province, were selected for physical examination and circadian rhythm of HPA axis checked from 2015 to 2017. Saliva samples were collected at each of the following three time points: immediately upon wakening, 30 minutes after wakening and bedtime, with the index of circadian rhythm of HPA axis calculated, which including cortisol awake response (CAR), cortisol in puberty priming and diurnal cortisol slope (DCS). Testicular volume, palpation and visual inspection of breast development were used to assess the state of purbety development on boys and girls. Information on gender, date of birth, time to fall asleep, wake-up time and weekly physical activity were gathered through questionnaire survey. Non-parametric test was used to compare the differences of baseline, follow-up period and different adolescent developmental processes of each index on circadian rhythm of HPA axis. Results: During the period of follow-up program and comparing with the continuous undeveloped group, CAR and the changes of CAR showed significantly increase, both in the puberty priming group and continuous development group, with statistically significant differences (CAR: Z=8.551, 4.680, respectively; P<0.01; the changes of CAR: Z=4.079, 2.700, respectively, P<0.01). There were no significant differences noticed in CAR and the changes of CAR between puberty priming group or continuous development group. The area under the curve (AUC) of cortisol in puberty priming group was slightly higher than that in the persistent undeveloped group (Z=2.591, P=0.010). Both the changes of daily cortisol slope (DCS) in puberty priming group and continuing developed group decreased significantly, when comparing with those in continuous undeveloped group (Z=-2.450, Z=-2.151; all P<0.05). There was no significant difference noticed in the changes of cortisol in puberty priming and DCS between different puberty development stages (the changes of AUC: χ(2)=2.747, P=0.253; DCS: χ(2)=4.554, P=0.032). Conclusions: The indexes of circadian rhythm of HPA axis were associated with the development of puberty. Both the cortisol awakening response and the total amount of diurnal cortisol secretion showed an increase, along with the puberty development. The change of diurnal cortisol slope declined with the development of puberty.
Adolescent
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Area Under Curve
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Circadian Rhythm
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Female
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Humans
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Hydrocortisone
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Hypothalamo-Hypophyseal System
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Male
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Pituitary-Adrenal System
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Pregnancy
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Saliva
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Sexual Maturation/physiology*
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Surveys and Questionnaires
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Wakefulness