Placental Mitochondrial DNA Content and Particulate Air Pollution during
            <i>in Utero</i>
            Life

Janssen, Bram G.; Munters, Elke; Pieters, Nicky; Smeets, Karen; Cox, Bianca; Cuypers, Ann; Fierens, Frans; Penders, Joris; Vangronsveld, Jaco; Gyselaers, Wilfried; Nawrot, Tim S.

doi:10.1289/ehp.1104458

Cited by 203 publications

(193 citation statements)

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“…It is noteworthy to mention that we observed an inverse correlation between placental mtDNA methylation and mtDNA content in contrast to a positive correlation observed in blood leukocytes. 22 Previous investigations have shown that mtDNA content is variable and fluctuates during aging, 31,32 under the influence of different environmental factors, 33 and the tissue investigated, 11,31,34 as well as different effects from recent versus long-term exposures. Nevertheless, we found similar results when we compared placental mtDNA content between mothers who continued smoking vs. non-smoking pregnant mothers (i.e., lower mtDNA content in smokers; relative difference of ¡21.98%, 95% CI: ¡41.10 to ¡0.86%, P D 0.01).…”

Section: Discussionmentioning

confidence: 99%

“…10 Changes in fetal mtDNA content may represent a biological effect along the path linking air pollution to effects on the fetus, such as birth weight. Previously, we showed a lower mtDNA content in placental tissue in association with in utero exposure to PM 10 (PM with aerodynamic diameter 10 mm), 11 which reflects signs of mitophagy and mitochondrial death.…”

Section: Introductionmentioning

confidence: 86%

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Placental mitochondrial methylation and exposure to airborne particulate matter in the early life environment: An ENVIRONAGE birth cohort study

Janssen¹,

Byun²,

Gyselaers³

et al. 2015

Epigenetics

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154

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Abbreviations: 12S rRNA, Mitochondrial ribosomal 12S rRNA; D-loop, Displacement loop; IQR, Interquartile range; mtDNA, Mitochondrial DNA; mtDNMT1, Mitochondrial isoform of nuclear-encoded DNA methyltransferase enzyme 1;MT-RNR1, Mitochondrial region RNR1; PM, Particulate matter.Most research to date has focused on epigenetic modifications in the nuclear genome, with little attention devoted to mitochondrial DNA (mtDNA). Placental mtDNA content has been shown to respond to environmental exposures that induce oxidative stress, including airborne particulate matter (PM). Damaged or non-functioning mitochondria are specifically degraded through mitophagy, exemplified by lower mtDNA content, and could be primed by epigenetic modifications in the mtDNA. We studied placental mtDNA methylation in the context of the early life exposome. We investigated placental tissue from 381 mother-newborn pairs that were enrolled in the ENVIRONAGE birth cohort. We determined mtDNA methylation by bisulfite-pyrosequencing in 2 regions, i.e., the D-loop control region and 12S rRNA (MT-RNR1), and measured mtDNA content by qPCR. PM 2.5 exposure was calculated for each participant's home address using a dispersion model. An interquartile range (IQR) increment in PM 2.5 exposure over the entire pregnancy was positively associated with mtDNA methylation (MT-RNR1: C0.91%, P D 0.01 and D-loop: C0.21%, P D 0.05) and inversely associated with mtDNA content (relative change of ¡15.60%, P D 0.001) in placental tissue. mtDNA methylation was estimated to mediate 54% [P D 0.01 (MT-RNR1)] and 27% [P D 0.06 (D-loop)] of the inverse association between PM 2.5 exposure and mtDNA content. This study provides new insight into the mechanisms of altered mitochondrial function in the early life environment. Epigenetic modifications in the mitochondrial genome, especially in the MT-RNR1 region, substantially mediate the association between PM 2.5 exposure during gestation and placental mtDNA content, which could reflect signs of mitophagy and mitochondrial death.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 86%

Placental mitochondrial methylation and exposure to airborne particulate matter in the early life environment: An ENVIRONAGE birth cohort study

Janssen¹,

Byun²,

Gyselaers³

et al. 2015

Epigenetics

Self Cite

154

139

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“…PM 10 exposure increase in the last pregnancy month is associated with decrease in mtDNA content (Janssen et al 2012), and as a result, a decrease On the other hand, we recognize that an important number of studies showed that PM collected from different cities, including Ohio (Xu et al 2011), Washington, D.C. (Mutlu et al 2011), and Boston (Golomb et al 2012) in United States, Paris, (Ferecatu et al 2010), and Milan (Gualtieri et al 2009), among others, shares some mitochondrial disturbances. However, we cannot discard the fact that some of the mitochondrial effects observed in this work could be attributed partially to the specific-PM 10 composition collected from Mexico City.…”

Section: Discussionmentioning

confidence: 79%

Decrease in Respiratory Function and Electron Transport Chain Induced by Airborne Particulate Matter (PM₁₀) Exposure in Lung Mitochondria

Delgado-Buenrostro¹,

Freyre-Fonseca

Cuéllar³

et al. 2012

Toxicol Pathol

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Particulate matter, with a mean aerodynamic diameter of 10 mm (PM 10 ), exposure is considered as a risk factor for cardiovascular and respiratory diseases. The mechanism of cell damage induced by PM 10 exposure is related to mitochondrial alterations. The aim of this work was to investigate the detailed alterations induced by PM 10 on mitochondrial function. Since lung tissue is one of the most important targets of PM 10 inhalation, isolated mitochondria from lung rat tissue were exposed to PM 10 and structural alterations were analyzed by transmission electron microscopy. Mitochondrial function was evaluated by respiratory control index (RCI), membrane potential, adenosine triphosphate (ATP) synthesis, and activity of respiratory chain. Results showed that exposure to PM 10 in isolated mitochondria from lung tissue caused enlarged intermembrane spaces and shape alterations, disruption of cristae, and the decrease in dense granules. Oxygraphic traces showed a concentration-dependent decrease in oxygen consumption and RCI. In addition, mitochondrial membrane potential, ATP synthesis, and activity of complexes II and IV showed an increase and decrease, respectively, after PM 10 exposure. PM 10 exposure induced disruption in structure and function in isolated mitochondria from lung rat tissue.

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“…These variations may be attributed to PM exposure during the gestation can increase the activity of glucocorticoid (Thomson et al 2013) suppressing the release of TSH (Wilber and Utiger 1969). Also, the antiinflammatory actions of glucocorticoids can induce the response of a systemic oxidative stress (Janssen et al 2012) and elevate the placental protein-bound 3-nitrotyrosine (Saenen et al 2016). Alternatively, PM2.5 can enter the lungs and blood circulation, where they may prompt the release of oxidative stress resulting in several neurodevelopment complications (Grahame et al, 2014).…”

mentioning

confidence: 99%

The Maternal Thyroid Gland as A Sentinel Organ for A Development: Signs of The Possible Harm of Air Pollution in Development

2018

ARC Journal of Animal and Veterinary Sciences

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Placental Mitochondrial DNA Content and Particulate Air Pollution during in Utero Life

Cited by 203 publications

References 51 publications

Placental mitochondrial methylation and exposure to airborne particulate matter in the early life environment: An ENVIRONAGE birth cohort study

Placental mitochondrial methylation and exposure to airborne particulate matter in the early life environment: An ENVIRONAGE birth cohort study

Decrease in Respiratory Function and Electron Transport Chain Induced by Airborne Particulate Matter (PM₁₀) Exposure in Lung Mitochondria

The Maternal Thyroid Gland as A Sentinel Organ for A Development: Signs of The Possible Harm of Air Pollution in Development

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Placental Mitochondrial DNA Content and Particulate Air Pollution during in Utero Life

Cited by 203 publications

References 51 publications

Placental mitochondrial methylation and exposure to airborne particulate matter in the early life environment: An ENVIRONAGE birth cohort study

Placental mitochondrial methylation and exposure to airborne particulate matter in the early life environment: An ENVIRONAGE birth cohort study

Decrease in Respiratory Function and Electron Transport Chain Induced by Airborne Particulate Matter (PM10) Exposure in Lung Mitochondria

The Maternal Thyroid Gland as A Sentinel Organ for A Development: Signs of The Possible Harm of Air Pollution in Development

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Resources

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Decrease in Respiratory Function and Electron Transport Chain Induced by Airborne Particulate Matter (PM₁₀) Exposure in Lung Mitochondria