TPH1

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Tryptophan 5-hydroxylase 1 (EC 1.14.16.4) (Tryptophan 5-monooxygenase 1) [TPH] [TPRH] [TRPH]

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[i]Lactobacillus plantarum[/i] DR7 improved brain health in aging rats via the serotonin, inflammatory and apoptosis pathways.

Aging processes affect the brain in many ways, ranging from cellular to functional levels which lead to cognitive decline and increased oxidative stress. The aim of this study was to investigate the potentials of [i]Lactobacillus plantarum[/i] DR7 on brain health including cognitive and memory functions during aging and the impacts of high fat diet during a 12-week period. Male Sprague-Dawley rats were separated into six groups: (1) young animals on normal diet (ND, (2) young animals on a high fat diet (HFD), (3) aged animals on ND, (4) aged animals on HFD, (5) aged animals on HFD and [i]L. plantarum[/i] DR7 (10 cfu/day) and (6) aged animals receiving HFD and lovastatin. To induce ageing, all rats in group 3 to 6 were injected sub-cutaneously at 600 mg/kg/day of D-galactose daily. The administration of DR7 has reduced anxiety accompanied by enhanced memory during behavioural assessments in aged-HFD rats ([i]P[/i]<0.05). Hippocampal concentration of all three pro-inflammatory cytokines were increased during aging but reduced upon administration of both statin and DR7. Expressions of hippocampal neurotransmitters and apoptosis genes showed reduced expressions of indoleamine dioxygenase and P53 accompanied by increased expression of TPH1 in aged- HFD rats administered with DR7, indicating potential effects of DR7 along the pathways of serotonin and oxidative senescence. This study provided an insight into potentials of [i]L. plantarum[/i] DR7 as a prospective dietary strategy to improve cognitive functions during aging. This study provided an insight into potentials of [i]L. plantarum[/i] DR7 as a prospective dietary strategy to improve cognitive functions during aging.


Keywords

  • Lactobacillus spp.
  • aging
  • brain


Ageing and gastrointestinal sensory function: altered colonic mechanosensory and chemosensory function in the aged mouse.

Remarkably little is known about how age affects the sensory signalling pathways in the gastrointestinal tract despite age-related gastrointestinal dysfunction being a prime cause of morbidity amongst the elderly population High-threshold gastrointestinal sensory nerves play a key role in signalling distressing information from the gut to the brain. We found that ageing is associated with attenuated high-threshold afferent mechanosensitivity in the murine colon, and associated loss of TRPV1 channel function. These units have the capacity to sensitise in response to injurious events, and their loss in ageing may predispose the elderly to lower awareness of GI injury or disease. Ageing has a profound effect upon gastrointestinal function through mechanisms that are poorly understood. Here we investigated the effect of age upon gastrointestinal sensory signalling pathways in order to address the mechanisms underlying these changes. In vitro mouse colonic and jejunal preparations with attached splanchnic and mesenteric nerves were used to study mechanosensory and chemosensory afferent function in 3-, 12- and 24-month-old C57BL/6 animals. Quantitative RT-PCR was used to investigate mRNA expression in colonic tissue and dorsal root ganglion (DRG) cells isolated from 3- and 24-month animals, and immunohistochemistry was used to quantify the number of 5-HT-expressing enterochromaffin (EC) cells. Colonic and jejunal afferent mechanosensory function was attenuated with age and these effects appeared earlier in the colon compared to the jejunum. Colonic age-related loss of mechanosensory function was more pronounced in high-threshold afferents compared to low-threshold afferents. Chemosensory function was attenuated in the 24-month colon, affecting TRPV1 and serotonergic signalling pathways. High-threshold mechanosensory afferent fibres and small-diameter DRG neurons possessed lower functional TRPV1 receptor responses, which occurred without a change in TRPV1 mRNA expression. Serotonergic signalling was attenuated at 24 months, but TPH1 and TPH2 mRNA expression was elevated in colonic tissue. In conclusion, we saw an age-associated decrease in afferent mechanosensitivity in the mouse colon affecting HT units. These units have the capacity to sensitise in response to injurious events, and their loss in ageing may predispose the elderly to lower awareness of GI injury or disease.

MeSH Terms

  • Aging
  • Animals
  • Colon
  • Ganglia, Spinal
  • Jejunum
  • Male
  • Mice, Inbred C57BL
  • Neurons
  • RNA, Messenger
  • Sensation
  • TRPV Cation Channels
  • Tryptophan Hydroxylase


Use of the RatLoft decreases pup mortality in lactating mice.

Lactating mice in laboratory conditions are thought to be under considerable stress. Dams may manifest this stress through a decrease in milk yield and/or increase in infanticide. The purpose of this study was to examine the effect of access to an environmental enrichment device called the RatLoft on milk yield, circulating serotonin, and pup mortality using both wild-type mice and mice genetically deficient in tryptophan hydroxylase 1 (TPH1(-/-); the rate-limiting enzyme in the non-neuronal serotonin synthesis pathway). Presence or absence of the RatLoft did not affect milk yield or circulating serotonin concentrations overall, but serotonin concentrations decreased throughout the 21-day lactation period. Serotonin concentrations were increased in TPH1-deficient mice with access to the RatLoft compared with those without the RatLoft on day 21. Pup mortality tended to decrease for dams with access to the RatLoft as compared to no RatLoft. Within the TPH1(-/-) groups, dams with access to the RatLoft tended to kill less pups per dam than dams without the RatLoft. These results demonstrate that access to the RatLoft during lactation decreases pup infanticide by dams. This environmental enrichment may be particularly beneficial to TPH1(-/-) dams that, in addition to decreased infanticide, had increased serotonin concentrations, possibly indicating enhanced well-being. Use of the RatLoft could prove beneficial to researchers working with lactating mouse models to increase the number of pups weaned and positively impact the welfare of the dam.

MeSH Terms

  • Aggression
  • Animal Welfare
  • Animals
  • Depression
  • Female
  • Housing, Animal
  • Lactation
  • Longevity
  • Mice
  • Mice, Inbred C57BL
  • Reproduction
  • Serotonin

Keywords

  • RatLoft
  • environmental enrichment
  • lactation
  • serotonin
  • welfare