Occupational exposure to environmental tobacco smoke in hospitality venues: are genetic- or proteomics-based biomarkers predictive of respiratory diseases?

Environmental tobacco smoke (ETS) is recognized as an occupational hazard in the hospitality industry. Although Portuguese legislation banned smoking in most indoor public spaces, it is still allowed in some restaurants/bars, representing a potential risk to the workers’ health, particularly for chronic respiratory diseases. The aims of this work were to characterize biomarkers of early genetic effects and to disclose proteomic signatures associated to occupational exposure to ETS and with potential to predict respiratory diseases development. A detailed lifestyle survey and clinical evaluation (including spirometry) were performed in 81 workers from Lisbon restaurants. ETS exposure was assessed through the level of PM 2.5 in indoor air and the urinary level of cotinine. The plasma samples were immunodepleted and analysed by 2D-SDSPAGE followed by in-gel digestion and LC-MS/MS. DNA lesions and chromosome damage were analysed innlymphocytes and in exfoliated buccal cells from 19 cigarette smokers, 29 involuntary smokers, and 33 non-smokers not exposed to tobacco smoke. Also, the DNA repair capacity was evaluated using an ex vivo challenge comet assay with an alkylating agent (EMS). All workers were considered healthy and recorded normal lung function. Interestingly, following 2D-DIGE-MS (MALDI-TOF/TOF), 61 plasma proteins were found differentially expressed in ETS-exposed subjects, including 38 involved in metabolism, acute-phase respiratory inflammation, and immune or vascular functions. On the other hand, the involuntary smokers showed neither an increased level of DNA/chromosome damage on lymphocytes nor an increased number of micronuclei in buccal cells, when compared to non-exposed non-smokers. Noteworthy, lymphocytes challenge with EMS resulted in a significantly lower level of DNA breaks in ETS-exposed as compared to non-exposed workers (P<0.0001) suggestive of an adaptive response elicited by the previous exposure to low levels of ETS. Overall, changes in proteome may be promising early biomarkers of exposure to ETS. Likewise, alterations of the DNA repair competence observed upon ETS exposure deserves to be further understood. Work supported by Fundação Calouste Gulbenkian, ACSS and FCT/Polyannual Funding Program.

Doenças mitocondriais: síndrome da depleção do mtDNA

As citopatias mitocondriais constituem um importante grupo de doenças metabólicas de expressão clínica heterogénea, para as quais não existe uma terapia eficaz. A maioria destas doenças é causada por uma disfunção ao nível da fosforilação oxidativa (OXPHOS), originando consequentemente uma deficiente produção de energia. O correto funcionamento da OXPHOS resulta de uma interação coordenada entre o genoma nuclear e mitocondrial. Assim, as doenças mitocondriais podem ser causadas por defeitos moleculares no genoma mitocondrial, no nuclear, ou em ambos, originando as doenças da comunicação intergenómica, que resultam na perda ou na instabilidade do DNA mitocondrial (mtDNA), e podem causar quer deleções múltiplas, quer depleção do genoma mitocondrial. A síndrome da depleção do mtDNA constitui um grupo de doenças raras, autossómicas recessivas, que se manifestam maioritariamente após o nascimento, causando a morte de muitos doentes durante a infância ou início da adolescência devido a uma redução acentuada do número de cópias do mtDNA. Trata-se de uma síndrome fenotipicamente heterogénea, apresentando-se sob três apresentações clínicas: hepatocerebral, miopática e encefalomiopática. A caracterização molecular destes doentes é importante não só para permitir a realização de aconselhamento genético e diagnóstico pré-natal adequados, mas também para melhorar a compreensão da fisiopatologia da doença e as opções terapêuticas.