Endogenous carbon monoxide (CO) as a modulating factor of molecular biological clock in the hypothalamic structures involved in light transmission in pig and wild boar hybrid during long and short day season.

Mature males of a wild boar-pig crossbreed, during the long and short day season, were used for the study which demonstrates that the chemical light carrier CO regulates the expression of biological clock genes in the hypothalamus via humoral pathways. Autologous blood with experimentally elevated concentrations of endogenous CO (using lamps with white light-emitting diodes) was infused into the ophthalmic venous sinus via the right dorsal nasal vein. Molecular biology methods: qPCR and Western Blot were used to determine the expression of genes and biological clock proteins.

Carbon Monoxide (CO) as a Retinal Regulator of Heme Oxygenases -1, and -2 (HO's) Expression.

Carbon monoxide (CO) has been proposed as a chemical light signal and neural system modulator via heme oxygenases -1 and -2 (HO-1 and HO-2). Many papers have proven the CO-HO circuit to be important for such physiological pathways as the molecular biological clock and the GnRH axis, but also in such pathological occurrences as ischemic injuries, or inflammation as a regenerative and neuroprotective factor. In this in vivo experiment, we used three groups of pigs: control-housed in natural conditions without any procedures; without CO-adapted and kept in constant darkness, infused with blank plasma; and with CO-adapted and kept in constant darkness infused with CO-enriched plasma.

Altered circadian dynamics of Per2 after cystathionine-β-synthase and/or cystathionine-γ-lyase pharmacological inhibition in serum-shocked NIH-3T3 cells.

Circadian clock genes are found in almost every cell that has a nucleus; they regulate the rhythmic nature of all processes that are cyclical. Among the genes controlled by the circadian clock, there are numerous factors that regulate key processes in the functioning of the cell. Disturbances in the functioning of the circadian clock are associated with numerous disorders.

Melatonin concentration in peripheral blood and melatonin receptors (MT1 and MT2) in the testis and epididymis of male roe deer during active spermatogenesis.

Melatonin regulates male reproductive function in seasonal and non-seasonal breeder mammals. The presence of melatonin membrane receptors (MT1 and MT2) in the testis and epididymis has been demonstrated in several species. Wild roe deer are a short-day breeding species characterised by a short rutting season lasting from mid-July to mid-August.

Altered dynamics in the circadian oscillation of clock genes in serum-shocked NIH-3T3 cells by the treatment of GYY4137 or AOAA.

Background And Purpose: Several members of the core clock mechanism are equipped with a Per-Arnt-Sim (PAS) domain through which they can bind haem [Fe(II)]. Haem is a ligand for the orphan receptors REV-ERBα/β (NR1D1/2), which regulate circadian rhythm and metabolism. The ability to bind haem sensitises these clock components to the action of small molecule gases, including NO, CO and HS.

The seasonal changes of the heme oxygenase in the retina pig.

The eye is a very important organ in the human body which is affected by various external factors. One of these factors is the sunlight which can cause the visual impairment and as well as the increase in the oxidative stress. The heme oxygenase I (HO-1) plays a very important role in the fight against the oxidative stress.

Carbon monoxide modulates melatonin synthesis in porcine pineal Cells in vitro: a preliminary study.

Two main isoforms of heme oxygenase (HO-1 and HO-2), the main enzyme of heme metabolism, were identified in the pineal gland. This suggests possible interactions between the melatonin synthesis pathway and the HO system. The aim of this study was to investigate the participation of carbon monoxide (CO), an HO by-product, on the melatonin synthesis pathway.

Extremely low frequency variable electromagnetic fields affect cancer and noncancerous cells in vitro differently: Preliminary study.

The exposure to extremely low frequency electromagnetic field (ELF-EMF) may result in various changes at the cellular level. To identify the effect of ELF-EMF exposure on viability of cells, cancer cells (U87-MG; 143B) and noncancerous cells (BJ; HEK) in exponential growth phase were exposed or sham-exposed to different values of frequency (2, 20, 30, 50 and 60 Hz), different shapes (sinusoidal, square and triangular) and time of exposure (0.5, 1, 2, 3 h) to electromagnetic field.

Extremely low-frequency electromagnetic field (EMF) generates alterations in the synthesis and secretion of oestradiol-17β (E) in uterine tissues: An in vitro study.

An electromagnetic field (EMF) of extremely low frequency may affect physiological processes in mammals. The aim of the present study was to determine the effect of an EMF on the synthesis and secretion of oestradiol-17β (E) in the porcine uterus. Endometrial and myometrial slices were harvested on days 12-13 of the oestrous cycle and exposed in vitro to an EMF (50 and 120 Hz, 8 mT) for 2 and 4 h in the presence or absence of progesterone (P).

Electromagnetic fields with frequencies of 5, 60 and 120 Hz affect the cell cycle and viability of human fibroblast BJ in vitro.

The impact of electromagnetic field (EMF) on humans has been described in numerous studies, but many questions are still unanswered. The aim of the experiment described in this study was to evaluate the effect of EMF on the viability of human fibroblast BJ in vitro and the percentage of cells in different phases of the cell cycle (G1/G0, S, G2/M) after 2 hours of exposure to sinusoidal continuous and pulsed EMFs with frequency of 5 Hz, 60 Hz and 120 Hz at a magnetic induction of 2,5 mT. The viability of BJ cells exposed to an EMF was estimated immediately after completion of exposure and after 24 hours.

Klotho protects human monocytes from LPS-induced immune impairment associated with immunosenescent-like phenotype.

In this study, we provide a new evidence on immunosenescent-like phenotype induction in low density monocytes due to the long-term treatment with lipopolysaccharide (LPS). We show that LPS caused oxidative and nitrosative stress through zinc downregulation and calcium accumulation. In turn, increased amounts of ROS/RNS and pro-inflammatory cytokines TNFα, IL-1β, IL-6 led to the irreversible DNA damage, persistent DDR activation, proliferation inhibition, reduction in cell growth and immune impairment.

Long-term culture with lipopolysaccharide induces dose-dependent cytostatic and cytotoxic effects in THP-1 monocytes.

Monocytes act as a first line of defence against invading pathogens and their dysfunctions seem to be a key factor in many immune disorders. However, the data on mechanisms underlying these dysfunctions remain elusive. In this study, we evaluated the effects of long-term (168h) lipopolysaccharide exposure on monocytes at low density cultures (1×10cells/ml).

Retinal venous blood carbon monoxide response to bright light in male pigs: A preliminary study.

The physical mechanism by which light is absorbed in the eye and has antidepressant and energizing effects in Seasonal Affective Disorder and other forms of psychiatric major depression is of scientific interest. This study was designed to explore one specific aspect of a proposed humoral phototransduction mechanism, namely that carbon monoxide (CO) levels increase in retinal venous blood in response to bright light. Eleven mature male pigs approximately six months of age were kept for 7days in darkness and fasted for 12h prior to surgery.

The impact of electromagnetic field at a frequency of 50 Hz and a magnetic induction of 2.5 mT on viability of pineal cells in vitro.

The impact of electromagnetic fields (EMF) on the pineal gland has been described in numerous studies, but many questions still remain unanswered. The aim of the experiment described in this study was to evaluate the effect of EMF on the viability of the pineal gland cells of pig in vitro. Primary culture of the pineal gland cells has been exposed to the influence of an EMF at a frequency of 50 Hz with 1, 2 or 3 hours and for 3 hours every 2 or 3 days.

Changes in gonadotropin-releasing hormone and gonadotropin-releasing hormone receptor gene expression after an increase in carbon monoxide concentration in the cavernous sinus of male wild boar and pig crossbread.

Previous studies indicate that there are at least a few regulatory systems involved in photoperiodic synchronisation of reproductive activity, which starts with the retina and ends at the gonadotropin-releasing hormone (GnRH) pulse generator. Recently we have shown indicated that the amount of carbon monoxide (CO) released from the eye into the ophthalmic venous blood depends on the intensity of sunlight. The aim of this study was to test whether changes in the concentration of carbon monoxide in the ophthalmic venous blood may modulate reproductive activity, as measured by changes in GnRH and GnRH receptor gene expression.

Changes in melatonin synthesis parameters after carbon monoxide concentration increase in the cavernous sinus.

Previous studies indicate that the gaseous messenger carbon monoxide (CO) is released from the eye into the ophthalmic venous blood depending on the intensity of sunlight. This study was designed to determine whether the increased concentration of CO in ophthalmic venous blood affects the synthesis of melatonin and therefore, whether CO released from the eye under normal lighting conditions can be a carrier of light intensity information. Thirty six mature male wild boar and pig crossbreeds (n = 36) were studied.

THE INFLUENCE OF CARBON MONOXIDE ON THE SECRETION OF MELATONIN BY PINEALOCYTES MEASURED IN VITRO.

Photoperiod is considered the most important factor entraining the circannual physiological rhythms through changing circadian patterns of melatonin (MEL) secretion from the pineal gland. The pineal gland of mammals does not respond directly to light but is controlled by light via neuronal phototransduction originating in the retina. In accordance with humoral phototransduction hypothesis, the aim of this study was to determine whether an increased concentration of CO, as a carrier of a light signal in pineal cell culture, affects the synthesis of melatonin.

Carbon monoxide-mediated humoral pathway for the transmission of light signal to the hypothalamus.

The gaseous messenger carbon monoxide (CO) is released from the eye into ophthalmic venous blood depending on the intensity of sunlight. Numerous neurohormones and other regulatory factors permeate from venous blood into arterial blood in the perihypophyseal vascular complex (PVC) and are transferred to the brain by the humoral pathway. This study was designed to determine whether elevated CO in ophthalmic venous blood (OphVB) affects the expression of clock genes and their transcriptional factors in the hypothalamus.