4.6 Article

Nano-titanium dioxide inhalation exposure during gestation drives redox dysregulation and vascular dysfunction across generations

Journal

PARTICLE AND FIBRE TOXICOLOGY
Volume 19, Issue 1, Pages -

Publisher

BMC
DOI: 10.1186/s12989-022-00457-y

Keywords

Engineered nanomaterials; Titanium dioxide; Microcirculation; Kisspeptin; Placenta

Categories

Funding

  1. National Institutes of Health [R01 ES015022]
  2. WV-CTSI [U54 GM104942-05]
  3. NHLBI [F32 HL152534-01]
  4. [R01 ES031253]

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The study found increased H2O2 production capacity and phosphorylation of NF-κB in F0 dams following maternal nano-TiO2 inhalation exposure. Additionally, F1 nano-TiO2 exposed females exhibited estrogen disruption and vascular dysfunction, resulting in smaller F1 and F2 offspring. The findings suggest that maternal exposure to engineered nanomaterials has long-lasting biological impacts across generations.
Background: Pregnancy is associated with many rapid biological adaptations that support healthy development of the growing fetus. One of which is critical to fetal health and development is the coordination between maternal liver derived substrates and vascular delivery. This crucial adaptation can be potentially derailed by inhalation of toxicants. Engineered nanomaterials (ENM) are commonly used in household and industrial products as well as in medicinal applications. As such, the potential risk of exposure remains a concern, especially during pregnancy. We have previously reported that ENM inhalation leads to upregulation in the production of oxidative species. Therefore, we aimed to determine if F0 dam maternal nano-TiO2 inhalation exposure (exclusively) resulted in altered H2O2 production capacity and changes in downstream redox pathways in the F0 dams and subsequent F1 pups. Additionally, we investigated whether this persisted into adulthood within the F1 generation and how this impacted F1 gestational outcomes and F2 fetal health and development. We hypothesized that maternal nano-TiO2 inhalation exposure during gestation in the F0 dams would result in upregulated H2O2 production in the F0 dams as well as her F1 offspring. Additionally, this toxicological insult would result in gestational vascular dysfunction in the F1 dams yielding smaller F2 generation pups. Results: Our results indicate upregulation of hepatic H2O2 production capacity in F0 dams, F1 offspring at 8 weeks and F1 females at gestational day 20. H2O2 production capacity was accompanied by a twofold increase in phosphorylation of the redox sensitive transcription factor NF-kappa B. In cell culture, naive hepatocytes exposed to F1-nano-TiO2 plasma increased H2O2 production. Overnight exposure of these hepatocytes to F1 plasma increased H2O2 production capacity in a partially NF-kappa B dependent manner. Pregnant F1- nano-TiO2 females exhibited estrogen disruption (12.12 +/- 3.1 pg/ml vs. 29.81 +/- 8.8 pg/ml sham-control) and vascular dysfunction similar to their directly exposed mothers. F1-nano-TiO2 uterine artery H2O2 production capacity was also elevated twofold. Dysfunctional gestational outcomes in the F1-nano-TiO2 dams resulted in smaller F1 (10.22 +/- 0.6 pups vs. sham-controls 12.71 +/- 0.96 pups) and F2 pups (4.93 +/- 0.47 g vs. 5.78 +/- 0.09 g sham-control pups), and fewer F1 male pups (4.38 +/- 0.3 pups vs. 6.83 +/- 0.84 sham-control pups). Conclusion: In conclusion, this manuscript provides critical evidence of redox dysregulation across generations following maternal ENM inhalation. Furthermore, dysfunctional gestational outcomes are observed in the F1-nano-TiO2 generation and impact the development of F2 offspring. In total, this data provides strong initial evidence that maternal ENM exposure has robust biological impacts that persists in at least two generations.

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