Proteomics

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Impact of whole-body versus nose-only exposure systems on systemic, respiratory, and cardiovascular endpoints in a 2-month cigarette smoke exposure study in the ApoE-/- mouse model [Lung data]


ABSTRACT: The objective of this study was to compare the biological and toxicological response of apolipoprotein E-deficient (Apoe-/-) mice to 3R4F mainstream smoke exposure for 2 months in whole-body exposure chambers (WBEC) and nose-only exposure chambers (NOEC). Female ApoE-/- mice were randomized into four groups: two Sham groups, exposed to filtered air, and two 3R4F groups, exposed to CS from the 3R4F reference cigarette (550 µg TPM/L). Half the number of mice in the Sham- and CS-exposed groups were exposed in WBECs and the other half in NOECs. The exposure phase lasted 9 weeks and included 1 week of adaption, during which exposure in both chamber types was escalated in dose and duration to a maximum of 4 h per day. The TPM concentration and exposure duration in WBECs were matched to those in NOECs on the basis of the regimen that the mice tolerated, as determined by in-life findings on acute signs of nicotine toxicity. Fresh air breaks were introduced during the exposure period to maintain carboxyhemoglobin (COHb) concentrations at acceptable levels. More frequent and longer fresh air breaks were required for exposure in the WBEC than in the NOEC because of the greater internal volume—and, consequently, the longer duration—required to clear smoke from the WBEC than from the NOEC. For animals in NOECs, a 30-min fresh air break was introduced after 2 and 3 h of exposure. For animals in WBECs, a 30-min fresh air break was introduced after 1 and 2 h of exposure and a 60-min fresh air break after the third hour of exposure. The general condition and health of the mice following exposure were monitored throughout the study. Full necropsy was performed 16-20 h after the last exposure without prior fasting, in accordance with previously described methods (Vanscheeuwijck et al., 2002). Differences between WBEC and NOEC expsoure were analyzed with regard to aerosol uptake, disease endpoints (adaptive changes in nasal epithelia, changes in lung function and inflammatory parameters, plasma cholesterol/triglyceride levels in lipoprotein fractions, and atherosclerosis plaque development), and systems biology endpoints (changes in the lung proteome and liver, nasal epithelial, and heart transcriptomes). All procedures involving animals were performed in a facility accredited by the Association for Assessment and Accreditation of Laboratory Animal Care International and licensed by the Agri-Food & Veterinary Authority of Singapore, with approval from an Institutional Animal Care and Use Committee and in compliance with the National Advisory Committee for Laboratory Animal Research Guidelines on the Care and Use of Animals for Scientific Purposes (NACLAR, 2004). Here, the protein expression data for lung tissue assessed by iTRAQ®-based quantitative proteomics will be described.

INSTRUMENT(S): Q Exactive

ORGANISM(S): Mus Musculus (mouse)

TISSUE(S): Lung

SUBMITTER: Bjoern Titz  

LAB HEAD: Julia Hoeng

PROVIDER: PXD018185 | Pride | 2021-02-26

REPOSITORIES: Pride

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