In vivo metabolic activity of a putative circadian oscillator, the rat suprachiasmatic nucleus

1980 ◽  
Vol 189 (1) ◽  
pp. 157-167 ◽  
Author(s):  
W. J. Schwartz ◽  
L. C. Davidsen ◽  
C. B. Smith
Keyword(s):  
Suprachiasmatic Nucleus ◽  
Metabolic Activity ◽  
Circadian Oscillator

Day-night changes in c-fos expression in the fetal sheep suprachiasmatic nucleus at late gestation

1995 ◽  
Vol 7 (3) ◽  
pp. 411 ◽  
Author(s):  
L Constandil ◽  
VH Parraguez ◽  
F Torrealba ◽  
G Valenzuela ◽  
M Seron-Ferre
Keyword(s):  
Suprachiasmatic Nucleus ◽  
Neuronal Activity ◽  
Metabolic Activity ◽  
Late Gestation ◽  
Circadian Oscillator ◽  
Cresyl Violet ◽  
Night Time ◽  
Fetal Sheep ◽  
Fos Expression

The suprachiasmatic nucleus (SCN) is a circadian oscillator in mammals and shows day-night changes in metabolic activity. To investigate whether the fetal sheep SCN behaves as a circadian oscillator, day-night changes in c-fos expression, a marker of neuronal activity, were measured. Eight fetal sheep were sacrificed at 135 days gestation--four at day-time (1200 hours) and four at night-time (2400 hours). Fetal brains were fixed, removed and cut in 40-microns serial coronal sections. Alternate sections were incubated with anti-Fos antibody (1:500) and Fos expression was revealed with extra-avidin-peroxidase and 3,3'-diaminobenzidine or stained with cresyl violet. The number of Fos-immunoreactive (Fos-ir) neurons per mm2 in the rostral, intermediate and caudal regions of the fetal sheep SCN was counted. Fetuses sacrificed in the day-time showed a higher number of Fos-ir neurons per mm2 (mean +/- s.e.; 516.7 +/- 60.1) in the three regions of the SCN than fetuses sacrificed at night-time (140.5 +/- 21.8). In addition, at night-time Fos-ir neurons were mainly localized to the ventrolateral area of the SCN. These findings demonstrate day-night changes in molecular activity consistent with the presence of a circadian oscillator in the fetal sheep SCN.

scholarly journals AHA1 upregulates IDH1 and metabolic activity to promote growth and metastasis and predicts prognosis in osteosarcoma

2021 ◽  
Vol 6 (1) ◽  
Author(s):  
Diwei Zheng ◽  
Weihai Liu ◽  
Wenlin Xie ◽  
Guanyu Huang ◽  
Qiwei Jiang ◽  
...  
Keyword(s):  
Metabolic Activity ◽  
Cancer Metabolism ◽  
Cancer Metastasis ◽  
Isocitrate Dehydrogenase 1 ◽  
Cell Growth And Migration ◽  
And Migration ◽  
The Relationship ◽  
Common Primary Malignant Bone

AbstractOsteosarcoma (OS) is the most common primary malignant bone tumor in children and adolescents. Although activator of HSP90 ATPase activity 1 (AHA1) is reported to be a potential oncogene, its role in osteosarcoma progression remains largely unclear. Since metabolism reprogramming is involved in tumorigenesis and cancer metastasis, the relationship between AHA1 and cancer metabolism is unknown. In this study, we found that AHA1 is significantly overexpressed in osteosarcoma and related to the prognosis of osteosarcoma patients. AHA1 promotes the growth and metastasis of osteosarcoma both in vitro and in vivo. Mechanistically, AHA1 upregulates the metabolic activity to meet cellular bioenergetic needs in osteosarcoma. Notably, we identified that isocitrate dehydrogenase 1 (IDH1) is a novel client protein of Hsp90-AHA1. Furthermore, the IDH1 protein level was positively correlated with AHA1 in osteosarcoma. And IDH1 overexpression could partially reverse the effect of AHA1 knockdown on cell growth and migration of osteosarcoma. Moreover, high IDH1 level was also associated with poor prognosis of osteosarcoma patients. This study demonstrates that AHA1 positively regulates IDH1 and metabolic activity to promote osteosarcoma growth and metastasis, which provides novel prognostic biomarkers and promising therapeutic targets for osteosarcoma patients.

Vancomycin enhances growth and virulence of Trichosporon spp. planktonic cells and biofilms

2021 ◽  
Author(s):  
Rossana de Aguiar Cordeiro ◽  
Bruno Nascimento da Silva ◽  
Ana Luiza Ribeiro de Aguiar ◽  
Livia Maria Galdino Pereira ◽  
Fernando Victor Monteiro Portela ◽  
...  
Keyword(s):  
Metabolic Activity ◽  
Fungal Infections ◽  
Tolerance Induction ◽  
Microscopic Analysis ◽  
Fungal Species ◽  
Planktonic Cells ◽  
Persister Cells ◽  
Candida Spp ◽  
Patients At Risk

Abstract Invasive fungal infections (IFIs) are important worldwide health problem, affecting the growing population of immunocompromised patients. Although the majority of IFIs are caused by Candida spp., other fungal species have been increasingly recognized as relevant opportunistic pathogens. Trichosporon spp. are members of skin and gut human microbiota. Since 1980’s, invasive trichosporonosis has been considered a significant cause of fungemia in patients with hematological malignancies. As prolonged antibiotic therapy is an important risk factor for IFIs, the present study investigated if vancomycin enhances growth and virulence of Trichosporon. Vancomycin was tested against T. inkin (n = 6) and T. asahii (n = 6) clinical strains. Planktonic cells were evaluated for their metabolic activity and virulence against Caenorhabditis elegans. Biofilms were evaluated for metabolic activity, biomass production, amphotericin B tolerance, induction of persister cells, and ultrastructure. Vancomycin stimulated planktonic growth of Trichosporon spp., increased tolerance to AMB, and potentiates virulence against C. elegans. Vancomycin stimulated growth (metabolic activity and biomass) of Trichosporon spp. biofilms during all stages of development. The antibiotic increased the number of persister cells inside Trichosporon biofilms. These cells showed higher tolerance to AMB than persister cells from VAN-free biofilms. Microscopic analysis showed that VAN increased production of extracellular matrix and cells in T. inkin and T. asahii biofilms. These results suggest that antibiotic exposure may have a direct impact on the pathophysiology of opportunistic trichosporonosis in patients at risk. Lay abstract This study showed that the vancomycin stimulated Trichosporon growth, induced morphological and physiological changes on their biofilms, and also enhanced their in vivo virulence. Although speculative, the stimulatory effect of vancomycin on fungal cells should be considered in a clinical scenario.

Effects of gonadal steroids on the in vivo binding of [125I]α-bungarotoxin to the suprachiasmatic nucleus

1984 ◽  
Vol 290 (1) ◽  
pp. 67-75 ◽  
Author(s):  
Marilyn M. Miller ◽  
Jerry Silver ◽  
Reinhart B. Billiar
Keyword(s):  
Suprachiasmatic Nucleus ◽  
Gonadal Steroids ◽  
In Vivo Binding

scholarly journals Methanogens and Methanogenesis in the Rumens and Ceca of Lambs Fed Two Different High-Grain-Content Diets

2012 ◽  
Vol 79 (6) ◽  
pp. 1777-1786 ◽  
Author(s):  
M. Popova ◽  
D. P. Morgavi ◽  
C. Martin
Keyword(s):  
Metabolic Activity ◽  
Methane Production ◽  
Direct Evidence ◽  
Species Level ◽  
Ex Situ ◽  
Content Type ◽  
Copy Numbers ◽  
Dietary Starch ◽  
Induced Changes

ABSTRACTThe amount and nature of dietary starch are known to influence the extent and site of feed digestion in ruminants. However, how starch degradability may affect methanogenesis and methanogens along the ruminant's digestive tract is poorly understood. This study examined the diversity and metabolic activity of methanogens in the rumen and cecum of lambs receiving wheat or corn high-grain-content diets. Methane productionin vivoandex situwas also monitored.In vivodaily methane emissions (CH4g/day) were 36% (P< 0.05) lower in corn-fed lambs than in wheat-fed lambs.Ex situmethane production (μmol/h) was 4-fold higher for ruminal contents than for cecal contents (P< 0.01), while methanogens were 10-fold higher in the rumen than in the cecum (mcrAcopy numbers;P< 0.01). Clone library analysis indicated thatMethanobrevibacterwas the dominant genus in both sites. Diet induced changes at the species level, as theMethanobrevibacter millerae-M. gottschalkii-M. smithiiclade represented 78% of the sequences from the rumen of wheat-fed lambs and just about 52% of the sequences from the rumen of the corn-fed lambs. Diet did not affectmcrAexpression in the rumen. In the cecum, however, expression was 4-fold and 2-fold lower than in the rumen for wheat- and corn-fed lambs, respectively. Though we had no direct evidence for compensation of reduced rumen methane production with higher cecum methanogenesis, the ecology of methanogens in the cecum should be better considered.

scholarly journals Arginine-Vasopressin Expressing Neurons in the Murine Suprachiasmatic Nucleus Exhibit a Circadian Rhythm in Network Coherence in vivo

2021 ◽  
Author(s):  
Adam Stowie ◽  
Zhimei Qiao ◽  
Daniella Do Carmo Buonfiglio ◽  
J. Christopher Ehlen ◽  
Morris Benveniste ◽  
...  
Keyword(s):  
Circadian Rhythms ◽  
Suprachiasmatic Nucleus ◽  
Arginine Vasopressin ◽  
Single Cells ◽  
Circadian Variation ◽  
Population Level ◽  
Correlational Analysis ◽  
Constant Darkness ◽  
Peak Time

AbstractThe Suprachiasmatic Nucleus (SCN) is composed of functionally distinct sub-populations of GABAergic neurons such as vasoactive intestinal polypeptide (VIP)-, arginine vasopressin (AVP)-, gastrin releasing peptide (GRP)-, and neuromedin S (NMS)-expressing neurons which form a neural network responsible for synchronizing most physiological and behavioral circadian rhythms in mammals. To date, little is known regarding which aspects of SCN rhythmicity are generated by individual SCN neurons or neuronal sub-populations and which aspects result from neuronal interaction within a network. In this study, we address this question utilizing in vivo miniaturized microscopy to measure fluorescent GCaMP-mediated calcium dynamics in AVP neurons in the intact SCN of awake, behaving mice. This approach permits analysis of rhythms of single cells, populations, and correlational analysis among groups of AVP neurons in a field of view across the circadian and diurnal day and night. We report that AVP neurons in the murine SCN exhibit a periodic oscillatory increase in calcium of approximately 14 seconds across the day and night, in both constant darkness and under a 12:12 light-dark (LD) cycle. Using in vivo optogentically-targeted single unit activity recording, we demonstrated that these slow calcium waves are likely the result of burst-firing characteristic of AVP neurons previously reported for other brain regions. Rhythmicity analysis of several fluorescence measures suggests that individual AVP neurons exhibit unstable and stochastic rhythms, with approximately 30% of the neurons rhythmic during any given day across lighting conditions, and weak or absent rhythmicity at the population level. Network-level cross-correlational analysis revealed that coherence among neuron pairs also exhibited stochastic rhythms with about 25% of pairs rhythmic at any time. Notably, this analysis revealed a stronger rhythm at the population level than was observed in single cell analysis. The peak time of maximal coherence among AVP neuronal pairs occurs between CT/ZT 6 and 9, coinciding with the timing of maximal neuronal activity with the SCN as a whole. These results are the first to demonstrate robust circadian variation in the coordination between apparently weakly rhythmic or arrhythmic neurons suggesting that, for AVP neurons, interactions between neurons in the SCN are more influential than individual or single subpopulation activity in the regulation of mammalian circadian rhythms.

Circadian rhythm and response to light of extracellular glutamate and aspartate in rat suprachiasmatic nucleus

1996 ◽  
Vol 271 (3) ◽  
pp. R579-R585 ◽  
Author(s):  
S. Honma ◽  
Y. Katsuno ◽  
K. Shinohara ◽  
H. Abe ◽  
K. Honma
Keyword(s):  
Circadian Rhythm ◽  
Suprachiasmatic Nucleus ◽  
Light Pulse ◽  
Continuous Light ◽  
In Vivo Microdialysis ◽  
Dark Phase ◽  
Dark Cycle ◽  
Complete Darkness ◽  
Endogenous Circadian Rhythm

Extracellular concentrations of glutamate and aspartate were measured in the vicinity of rat suprachiasmatic nucleus (SCN) by means of in vivo microdialysis. The concentrations of both excitatory amino acids (EAAs) were higher during the dark phase than during the light under the light-dark cycle, showing pulsatile fluctuations throughout the day. When rats were released into the complete darkness, the 24-h pattern in the aspartate continued for at least one cycle, whereas that in the glutamate disappeared. The nocturnal increases in the EAA levels were not due to the increase of locomotor activity during the nighttime, because the 24-h rhythms were also detected in animals under urethan anesthesia. The patterns of extracellular EAA levels were changed when rats were released into the continuous light. Circadian rhythm was not detected in the glutamate, whereas the 24-h pattern was maintained in the aspartate with the levels increased to various extents. A 30-min light pulse given either at zeitgber time (ZT) 1 or ZT 13 elevated the EAA levels during the latter half of the light pulse, except glutamate by a pulse at ZT 1. The extracellular EAA levels in the vicinity of the rat SCN showed the circadian rhythm with a nocturnal peak and increased in response to the continuous light and a brief light pulse. The aspartate level is considered to be regulated by the endogenous circadian rhythm, but the glutamate levels seems to be modified by the light-dark cycle.

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