Project description:Aim: To identify the genes and non-coding RNAs (ncRNAs) involved in the neuroprotective actions of a dietary anti-oxidant (saffron) and of photobiomodulation. Methods: We used a previously published assay of photoreceptor damage, in which albino Sprague Dawley rats raised in dim cyclic illumination (12h 5 lux, 12h darkness) are challenged by 24h exposure to bright (1,000 lux) light. Experimental groups were protected against light damage by pretreatment with dietary saffron (1mg/kg/day for 21d) or photobiomodulation (10 J/cm2 at the eye, daily for 5d). RNA from 1 eye of each of 4 animals in each of the 6 experimental groups (control, light damage (LD), saffron, photobiomodulation (PBM), saffronLD, and PBMLD) was hybridized to Affymetrix rat genome ST arrays. Quantitative real-time PCR analysis of 14 selected genes was used to validate microarray results. Results: LD caused the regulation of 175 entities (genes and ncRNAs) beyond criterion levels (P < 0.05 in comparisons with controls, fold-change >2). PBM pretreatment reduced the expression of 126 of these 175 LD-regulated entities below criterion; saffron pretreatment reduced the expression of 53 entities (50 in common with PBM). In addition, PBM pretreatment regulated the expression of 67 entities not regulated by LD, while saffron pretreatment regulated 122 entities not regulated by LD (48 in common with PBM). PBM and saffron, given without LD, regulated genes and ncRNAs beyond criterion levels, but in lesser numbers than during their protective action. A high proportion of the entities regulated by LD (>90%) were known genes; by contrast, ncRNAs where prominent among the entities regulated by PBM and saffron in their neuroprotective roles (73% and 62% respectively). Conclusions: Given alone, saffron and (more prominently) PBM both regulated significant numbers of genes and ncRNAs. Given prior to retinal exposure to damaging light, thus while exerting their neuroprotective action, they regulated much larger numbers of entities, among which ncRNAs were prominent. Further, the downregulation of known genes and of ncRNAs was prominent in the protective actions of both neuroprotectants. These comparisons provide an overview of gene expression induced by two neuroprotectants and provide a basis for more focused study of their mechanisms. The were 3 biological repliactes of each of the following groups: Control, Saffron pretreated, Photobiomodulation pretreated, Light Damage, Saffron Light Damage and Photobiomodulation Light Damage. 18 chips in total were performed.

Project description:Photobiomodulation (PBM) is praised as a promising physical therapy, which has many advantages, such as noninvasive, painless. The 630nm LED-stimulated-MH7A cells were sequenced for analyzing the mechanism of PBM. As a result,1181 differentially expressed genes were identified.

Project description:Photobiomodulation (PBM) with blue light induces a biphasic dose response curve in proliferation of immortalized human keratinocytes (HaCaT), with a maximum proliferative effect reached with 7.5min (10.35J/cm2). The aim of this study was to test the photobiomodulatory effect of 10.35J/cm2 blue light irradiation on cell proliferation, ROS production and gene expression at different time points after irradiation of HaCaT cells in vitro and to compare the results with the anti-proliferative phase of PBM using blue light with 41.4J/cm2. For 10.35J/cm2 cell proliferation was increased for all measured harvesting time points up to at least 24h after irradiation. ROS concentration was increased 30min after irradiation. However, already 1h after irradiation, cells were able to decrease ROS and stabilize the concentration to the basal level. The sudden increase in ROS was even higher when compared to 41.4J/cm2. However, gene expression analysis did not indicate any sign of apoptosis and even indicated an activation of cell survival mechanisms. Furthermore, comparable to 41.4J/cm2, aryl hydrocarbon receptor (AHR) “battery genes” showed a deregulation after blue light irradiation strengthening the hypothesis of AHR as possible target for blue light irradiation.

Project description:Photobiomodulation (PBM) with blue light induces a biphasic dose response curve in proliferation of immortalized human keratinocytes (HaCaT), with a maximum proliferative effect reached with 7.5min (10.35J/cm2). The aim of this study was to test the photobiomodulatory effect of 10.35J/cm2 blue light irradiation on cell proliferation, ROS production and gene expression at different time points after irradiation of HaCaT cells in vitro and to compare the results with the anti-proliferative phase of PBM using blue light with 41.4J/cm2. For 10.35J/cm2 cell proliferation was increased for all measured harvesting time points up to at least 24h after irradiation. ROS concentration was increased 30min after irradiation. However, already 1h after irradiation, cells were able to decrease ROS and stabilize the concentration to the basal level. The sudden increase in ROS was even higher when compared to 41.4J/cm2. However, gene expression analysis did not indicate any sign of apoptosis and even indicated an activation of cell survival mechanisms. Furthermore, comparable to 41.4J/cm2, aryl hydrocarbon receptor (AHR) “battery genes” showed a deregulation after blue light irradiation strengthening the hypothesis of AHR as possible target for blue light irradiation.

Project description:Photobiomodulation (PBM) with blue light induces a biphasic dose response curve in proliferation of immortalized human keratinocytes (HaCaT), with a maximum proliferative effect reached with 7.5min (10.35J/cm2). The aim of this study was to test the photobiomodulatory effect of 10.35J/cm2 blue light irradiation on cell proliferation, ROS production and gene expression at different time points after irradiation of HaCaT cells in vitro and to compare the results with the anti-proliferative phase of PBM using blue light with 41.4J/cm2. For 10.35J/cm2 cell proliferation was increased for all measured harvesting time points up to at least 24h after irradiation. ROS concentration was increased 30min after irradiation. However, already 1h after irradiation, cells were able to decrease ROS and stabilize the concentration to the basal level. The sudden increase in ROS was even higher when compared to 41.4J/cm2. However, gene expression analysis did not indicate any sign of apoptosis and even indicated an activation of cell survival mechanisms. Furthermore, comparable to 41.4J/cm2, aryl hydrocarbon receptor (AHR) “battery genes” showed a deregulation after blue light irradiation strengthening the hypothesis of AHR as possible target for blue light irradiation.

Project description:Photobiomodulation (PBM) with blue light induces a biphasic dose response curve in proliferation of immortalized human keratinocytes (HaCaT), with a maximum anti-proliferative effect reached with 30min (41.4J/cm²). The aim of this study was to test the photobiomodulatory effect of 41.4J/cm2 blue light irradiation on ROS production, apoptosis and gene expression at different time points after irradiation of HaCaT cells in vitro. ROS concentration was increased 30min after irradiation. However, already 1h after irradiation, cells were able to reduce ROS and balance the concentration to a normal level. The sudden increase in ROS did not damage the cells, which was demonstrated with FACS analysis where HaCaT cells did not show any sign of apoptosis after blue light irradiation. Furthermore, a time course could be seen in gene expression analysis after blue light, with an early response of stimulated genes already 1h after blue light irradiation, leading to the discovery of the aryl hydrocarbon receptor as possible target for blue light irradiation.

Project description:Photobiomodulation (PBM) with blue light induces a biphasic dose response curve in proliferation of immortalized human keratinocytes (HaCaT), with a maximum anti-proliferative effect reached with 30min (41.4J/cm²). The aim of this study was to test the photobiomodulatory effect of 41.4J/cm2 blue light irradiation on ROS production, apoptosis and gene expression at different time points after irradiation of HaCaT cells in vitro. ROS concentration was increased 30min after irradiation. However, already 1h after irradiation, cells were able to reduce ROS and balance the concentration to a normal level. The sudden increase in ROS did not damage the cells, which was demonstrated with FACS analysis where HaCaT cells did not show any sign of apoptosis after blue light irradiation. Furthermore, a time course could be seen in gene expression analysis after blue light, with an early response of stimulated genes already 1h after blue light irradiation, leading to the discovery of the aryl hydrocarbon receptor as possible target for blue light irradiation.

Project description:Photobiomodulation (PBM) with blue light induces a biphasic dose response curve in proliferation of immortalized human keratinocytes (HaCaT), with a maximum anti-proliferative effect reached with 30min (41.4J/cm²). The aim of this study was to test the photobiomodulatory effect of 41.4J/cm2 blue light irradiation on ROS production, apoptosis and gene expression at different time points after irradiation of HaCaT cells in vitro. ROS concentration was increased 30min after irradiation. However, already 1h after irradiation, cells were able to reduce ROS and balance the concentration to a normal level. The sudden increase in ROS did not damage the cells, which was demonstrated with FACS analysis where HaCaT cells did not show any sign of apoptosis after blue light irradiation. Furthermore, a time course could be seen in gene expression analysis after blue light, with an early response of stimulated genes already 1h after blue light irradiation, leading to the discovery of the aryl hydrocarbon receptor as possible target for blue light irradiation.

Project description:It is well known that host-microbes and immunity interactions are influenced by dietary patterns, as well as daily environmental light-dark (LD) cycles that entrain circadian rhythms in the host. Emerging data has highlighted the importance of diet patterns and timing on the interaction among circadian rhythms, gut microbiome, and immunity, however, their impacts on LD cycles are less reported. Therefore, we aim to study how LD cycles regulate the homeostatic crosstalk between gut microbiome, hypothalamic and hepatic circadian clock oscillations and immunity. We hypothesized that different environmental LD cycles: (1) constant darkness, LD0/24; (2) short light, LD8/16; (3) normal LD cycle, LD12/12; (4) long light, LD16/8; and (5) constant light, LD24/0, may affect immunity and metabolism to varying degrees. Therefore, 240 mice were managed with chow diets (CD) and antibiotics treatments (ABX) under five different LD cycles for 42 days. The colonic (co) and cecum (ce) contents were obtained for studying their impacts on gut microbiome using 16S rRNA sequencing.

Project description:It is well known that host-microbes and immunity interactions are influenced by dietary patterns, as well as daily environmental light-dark (LD) cycles that entrain circadian rhythms in the host. Emerging data has highlighted the importance of diet patterns and timing on the interaction among circadian rhythms, gut microbiome, and immunity, however, their impacts on LD cycles are less reported. Therefore, we aim to study how LD cycles regulate the homeostatic crosstalk between gut microbiome, hypothalamic and hepatic circadian clock oscillations and immunity. We hypothesized that different environmental LD cycles: (1) constant darkness, LD0/24; (2) short light, LD8/16; (3) normal LD cycle, LD12/12; (4) long light, LD16/8; and (5) constant light, LD24/0, may affect immunity and metabolism to varying degrees. Therefore, 240 mice were managed with chow diets (CD) and antibiotics treatments (ABX) under five different LD cycles for 42 days. The liver (LIV), hypothalamus (HYP), inguinal white adipose tissue (iWAT), ileum epithelium (ILE), colon epithelium (COL), jejunum epithelium (JEJ), cecum epithelium (CEC), spleen (SPL), mammary gland (MAG), and thymus gland (THY) tissues were obtained for studying their impacts immunity using RNA-Seq data.