Background: Inhalation of respirable crystalline silica particles, including quartz, is associated with an increased risk of developing pathologies, including persistent lung inflammation, fibrosis, cancer, and systemic autoimmunity. We demonstrated that the nearly free silanols (NFS) generated upon quartz fracturing trigger the early molecular events determining quartz toxicity. Here, we address the involvement of NFS in driving short- and long-term pathogenic responses, including lung inflammation, fibrosis, cancer, and autoimmunity in multiple mouse models. Results: In vivo pulmonary responses to as-grown NFS-poor quartz (gQ) and fractured NFS-rich quartz (gQ-f) of synthetic origin were compared to two NFS-rich reference quartz dusts (Min-U-Sil 5, mQ-f). Acute and persistent inflammation, as well as fibrosis, were assessed 3 and 60 days, respectively, after administering one dose of particles (2 mg) via oropharyngeal aspiration (o.p.a.) to C57BL/6 mice. The carcinogenic potential was assessed in a co-carcinogenicity study using A/J mice, which were pre-treated with 3-methylcholanthrene (3-MC) and administered four doses of quartz particles (4 × 1 mg, o.p.a.), then sacrificed after 10 months. Autoimmunity was evaluated in autoimmune-prone 129/Sv mice 4 months after particle administration (2 × 1.25 mg, o.p.a). Mice exposed to NFS-rich quartz exhibited a strong acute lung inflammatory response, characterized by pro-inflammatory cytokine release and leukocyte accumulation, which persisted for up to 60 days. No inflammatory effect was observed in mice treated with NFS-poor gQ. Fibrosis onset (i.e., increased levels of pro-fibrotic factors, hydroxyproline, and collagen) was prominent in mice exposed to NFS-rich but not to NFS-poor quartz. Additionally, lung cancer development (tumour numbers) and autoimmune responses (elevated IgG and anti-dsDNA autoantibody levels) were only observed after exposure to NFS-rich quartz. Conclusions: Collectively, the results indicate that NFS, which occur upon fracturing of quartz particles, play a crucial role in the short- and long-term local and systemic responses to quartz. The assessment of NFS on amorphous or crystalline silica particles may help create a predictive model of silica pathogenicity.
Short- and long-term pathologic responses to quartz are induced by nearly free silanols formed during crystal fracturing
Pavan, Cristina
Co-first
;Turci, FrancescoCo-last
;
2024-01-01
Abstract
Background: Inhalation of respirable crystalline silica particles, including quartz, is associated with an increased risk of developing pathologies, including persistent lung inflammation, fibrosis, cancer, and systemic autoimmunity. We demonstrated that the nearly free silanols (NFS) generated upon quartz fracturing trigger the early molecular events determining quartz toxicity. Here, we address the involvement of NFS in driving short- and long-term pathogenic responses, including lung inflammation, fibrosis, cancer, and autoimmunity in multiple mouse models. Results: In vivo pulmonary responses to as-grown NFS-poor quartz (gQ) and fractured NFS-rich quartz (gQ-f) of synthetic origin were compared to two NFS-rich reference quartz dusts (Min-U-Sil 5, mQ-f). Acute and persistent inflammation, as well as fibrosis, were assessed 3 and 60 days, respectively, after administering one dose of particles (2 mg) via oropharyngeal aspiration (o.p.a.) to C57BL/6 mice. The carcinogenic potential was assessed in a co-carcinogenicity study using A/J mice, which were pre-treated with 3-methylcholanthrene (3-MC) and administered four doses of quartz particles (4 × 1 mg, o.p.a.), then sacrificed after 10 months. Autoimmunity was evaluated in autoimmune-prone 129/Sv mice 4 months after particle administration (2 × 1.25 mg, o.p.a). Mice exposed to NFS-rich quartz exhibited a strong acute lung inflammatory response, characterized by pro-inflammatory cytokine release and leukocyte accumulation, which persisted for up to 60 days. No inflammatory effect was observed in mice treated with NFS-poor gQ. Fibrosis onset (i.e., increased levels of pro-fibrotic factors, hydroxyproline, and collagen) was prominent in mice exposed to NFS-rich but not to NFS-poor quartz. Additionally, lung cancer development (tumour numbers) and autoimmune responses (elevated IgG and anti-dsDNA autoantibody levels) were only observed after exposure to NFS-rich quartz. Conclusions: Collectively, the results indicate that NFS, which occur upon fracturing of quartz particles, play a crucial role in the short- and long-term local and systemic responses to quartz. The assessment of NFS on amorphous or crystalline silica particles may help create a predictive model of silica pathogenicity.File | Dimensione | Formato | |
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