Project description:MicroRNAs (miRNAs) are critical regulators of gene expression, yet much remains unknown regarding miRNA changes resulting from environmental exposures and whether they influence pathway signaling across various tissues and time. To gain knowledge on these novel topics, we set out to investigate in vivo miRNA responses to inhaled formaldehyde, an important air pollutant known to disrupt miRNA expression profiles. Rats were exposed by inhalation to either 0 or 2 ppm formaldehyde (6 hours/day) for 7 days, 28 days, or 28 days followed by a 7 day recovery. Genome-wide miRNA expression profiles and associated signaling pathways were assessed within the nasal respiratory mucosa, circulating mononuclear white blood cells (WBC), and bone marrow (BM).

Project description:In addition to gaining knowledge on in vivo miRNA responses to formaldehyde, we set out to relate these miRNA responses to transcriptional profiles modified by formaldehyde. Rats were exposed by inhalation to either 0 or 2 ppm formaldehyde (6 hours/day) for 28 days. Genome-wide transcriptional profiles and associated signaling pathways were assessed within the nasal respiratory mucosa and circulating mononuclear white blood cells (WBC).

Project description:MicroRNAs (miRNAs) are critical regulators of gene expression, yet much remains unknown regarding miRNA changes resulting from environmental exposures and whether they influence pathway signaling across various tissues and time. To gain knowledge on these novel topics, we set out to investigate in vivo miRNA responses to inhaled formaldehyde, an important air pollutant known to disrupt miRNA expression profiles. Rats were exposed by inhalation to either 0 or 2 ppm formaldehyde (6 hours/day) for 7 days, 28 days, or 28 days followed by a 7 day recovery. Genome-wide miRNA expression profiles and associated signaling pathways were assessed within the nasal respiratory mucosa, circulating mononuclear white blood cells (WBC), and bone marrow (BM). Male Fischer rats received nose-only inhalation exposures of 2 ppm formaldehyde. Three exposure durations were investigated: (1) 2 ppm formaldehyde exposure, 6 hours/day, for 7 days (7-day group), (2) 2 ppm formaldehyde exposure, 6 hours/day, for 28 days (28-day group), and (3) 2 ppm formaldehyde exposure, 6 hours/day, for 28 days, with a 7 day recovery period following the last exposure (28-day plus recovery group). Control (unexposed) rats were placed in nose-only exposure tubes containing room air for the same duration. After the last exposure period (or the last recovery period for the 28-day plus recovery group), animals were euthanized. RNA were assessed from sampes collected from the nasal epithelium, circulating white blood cells, and bone marrow cells. Genome-wide miRNA expression profiles were evaluated using microarrays.

Project description:In addition to gaining knowledge on in vivo miRNA responses to formaldehyde, we set out to relate these miRNA responses to transcriptional profiles modified by formaldehyde. Rats were exposed by inhalation to either 0 or 2 ppm formaldehyde (6 hours/day) for 28 days. Genome-wide transcriptional profiles and associated signaling pathways were assessed within the nasal respiratory mucosa and circulating mononuclear white blood cells (WBC). Male Fischer rats received nose-only inhalation exposures of 2 ppm formaldehyde for 7 days or 28 days (6 hours/day). Control (unexposed) rats were placed in nose-only exposure tubes containing room air for the same duration. After the last exposure period, animals were euthanized. RNA were assessed from sampes collected from the nasal epithelium and circulating white blood cells. Genome-wide mRNA expression profiles were evaluated using microarrays.

Project description:Formaldehyde-induced changes in microRNA signaling [Agilent]

Project description:Formaldehyde-induced changes in microRNA signaling [Affymetrix]

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:Portal Hypertension Induced Changes in Splenic microRNA Expression

Project description:We set out to test the hypothesis that formaldehyde inhalation exposure significantly alters miRNA expression profiles within the nasal epithelium of nonhuman primates. Here, cynomolgus macaques were exposed to 0, 2, and 6 ppm formaldehyde for 6 hours/day across two consecutive days. RNA was extracted from the nasal maxilloturbinate region, a direct target of formaldehyde inhalation exposure. Genome-wide miRNA expression levels were assessed using microarrays.