Abstract
Tobacco smoke is an established risk factor for thoracic aortic aneurysms and dissections (TAAD). However, little is known about its underlying mechanisms due to the lack of validated animal models. The present study developed a mouse model that may be utilized to investigate exacerbation of TAAD formation by mimetics of tobacco smoke. TAADs were created via inducible deletion of smooth muscle cell-specific Tgfbr2 receptors. Using this model, the first set of experiments evaluated the efficacy of nicotine salt (34.0 mg/kg/day), nicotine free base (NFB, 5.0 mg 90-day pellets), and cigarette smoke extract (0.1 ml/mouse/day). Compared with their respective control groups, only NFB pellets promoted TAAD dilation (23 ± 3% vs. 12 ± 2%, P = 0.014), and this efficacy was achieved at a cost of >50% acute mortality. Infusion of NFB with osmotic minipumps at extremely high, but nonlethal, doses (15.0 or 45.0 mg/kg/day) failed to accelerate TAAD dilation. Interestingly, costimulation with β-aminopropionitrile (BAPN) promoted TAAD dilation and aortic rupture at dosages of 3.0 and 45.0 mg/kg/day, respectively, indicating that BAPN sensitizes the response of TAADs to NFB. In subsequent analyses, the detrimental effects of NFB were associated with clustering of macrophages, neutrophils, and T-cells in areas with structural destruction, enhanced matrix metalloproteinase- (MMP-) 2 production, and pathological angiogenesis with attenuated fibrosis in the adventitia. In conclusion, modeling nicotine exacerbation of TAAD formation requires optimization of chemical form, route of delivery, and dosage of the drug as well as the pathologic complexity of TAADs. Under the optimized conditions of the present study, chronic inflammation and adventitial mal-remodeling serve as critical pathways through which NFB exacerbates TAAD formation.
Highlights
Thoracic aortic aneurysms and dissections (TAADs) are a silent killer
We evaluated the impact of the chemical form, dose, delivery approach, and pathologic complexity on the efficacy of nicotine in exacerbating TAAD formation induced by Tgfbr2iko
The results demonstrated that (1) nicotine salt and free base, when delivered at doses usually applied in the fields of neuroscience and pulmonary disease, are not effective in modulating the phenotypic presentation of TAADs; (2) nicotine free base (NFB) by itself exacerbates TAAD formation only at doses approaching lethality; (3) treatment with base (NFB) plus 0.2% β-aminopropionitrile (BAPN) overcomes the resistance of TAADs in response to NFB; (4) fueling local inflammation and impairing adventitial remodeling may represent critical processes by which NFB exacerbates TAAD formation
Summary
Thoracic aortic aneurysms and dissections (TAADs) are a silent killer. 5% of TAADs are symptomatic prior to dissection or rupture, and among those with symptoms, fewer than 50% may be correctly diagnosed in the emergency room [2]. One of the major risk factors for TAAD development is smoking [3, 4]. A recent prospective study with age- and sex-adjusted analysis identified smoking as an independent risk factor for the development of TAADs [5]. Because the use of tobacco-related materials (e)-cigarettes has been constantly increasing in the United States and other countries [10, 11], the number of TAAD cases will likely grow exponentially in the coming years, so the need to develop effective medical therapies is emerging
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