Suppression of the T-dependent antibody response following oral exposure to selected polycyclic aromatic compounds in B6C3F1/N mice.

IF 3.6 Q2 TOXICOLOGY

Frontiers in toxicology Pub Date : 2025-03-06 eCollection Date: 2025-01-01 DOI:10.3389/ftox.2025.1558639

Victor J Johnson, Cynthia V Rider, Michael I Luster, Cynthia J Willson, Shawn Harris, Billie Stiffler, James Blake, Esra Mutlu, Veronica Godfrey, Brian Burback, Reshan Fernando, Suramya Waidyanatha, Gary R Burleson, Dori R Germolec

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Abstract

Introduction: The ability of polycyclic aromatic compounds (PACs), most notably benzo(a) pyrene [B(a)P], to suppress antibody responses in experimental animals is well documented. Very little information, however, is available on the immunotoxicity of related PACs despite their widespread presence in the environment. Additionally, there are several weaknesses in existing immunotoxicity databases for PACs in experimental animals, limiting their applicability in quantitative risk assessment. Careful characterization of strong positive and clear negative PACs is needed in order to lay the foundation for generating robust immunotoxicity data for structurally diverse PACs that have not yet been evaluated.

Methods: In the current study, adult B6C3F1/N female mice were treated daily for 28 consecutive days by oral administration of B(a)P to provide dose levels ranging between 2 and 150 mg/kg bodyweight/day. In addition, phenanthrene and pyrene, non-carcinogenic PACs, were tested at dose ranges between 12.5 and 800 mg/kg bodyweight/day and 3.1 and 200 mg/kg bodyweight/day, respectively. Immune assessments following PAC exposure included organ weights and immunopathology, hematology, quantification of immune cell types in the spleen, and T-dependent antibody response (TDAR) to sheep red blood cells (SRBC).

Results: Benzo(a)pyrene exposure resulted in significant decreases in lymphoid organ weights, immune cell populations in the spleen and TDAR. The most sensitive indicator for immunotoxicity from B(a)P treatment was suppression of antibody responses, where an ∼75% decrease occurred at a dose level of 9 mg/kg bodyweight/day and ∼32% decrease at the lowest tested dose of 2 mg/kg bodyweight/day. Antibody suppression was associated with significant immune cell loss in the spleen; however, it was clear that the suppression of the TDAR was more sensitive than cell loss indicating that cell function impairments were involved. Phenanthrene treatment also resulted in suppression of the antibody response but only at dose levels ≥50 mg/kg bodyweight/day without significant effects on other parameters, while pyrene showed no significant immune effects.

Conclusion: Suppression of the TDAR to SRBC immunization was the most sensitive immune endpoint being 33 times more sensitive than changes in liver weight, a commonly used outcome for risk assessment for PACs. Benzo(a)pyrene was the most potent PAC regarding suppression of humoral immunity whereas pyrene did not affect the immune responses tested. These studies lay the foundation for evaluating diverse PACs with a range of immunotoxicological potencies.

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B6C3F1/N小鼠口服暴露于选定的多环芳香族化合物后t依赖性抗体反应的抑制

多环芳香族化合物（PACs），尤其是苯并(a)芘[B(a)P]，在实验动物中抑制抗体反应的能力是有充分文献记载的。然而，尽管相关pac广泛存在于环境中，但关于其免疫毒性的信息却很少。此外，现有的实验动物pac免疫毒性数据库存在一些缺陷，限制了其在定量风险评估中的适用性。需要仔细表征强阳性和明确阴性PACs，以便为尚未评估的结构多样化PACs生成可靠的免疫毒性数据奠定基础。方法：在本研究中，成年B6C3F1/N雌性小鼠每天口服B(a)P，连续28天，剂量范围为2至150 mg/kg体重/天。此外，菲和芘这两种非致癌性pac分别在12.5至800毫克/公斤体重/天和3.1至200毫克/公斤体重/天的剂量范围内进行了测试。PAC暴露后的免疫评估包括器官重量和免疫病理学、血液学、脾脏免疫细胞类型的定量和对羊红细胞（SRBC）的t依赖性抗体反应（TDAR）。结果：苯并(a)芘暴露导致淋巴器官重量、脾脏免疫细胞群和TDAR显著降低。B(a)P治疗免疫毒性最敏感的指标是抗体反应的抑制，在9 mg/kg体重/天的剂量水平下，抗体反应下降了75%，在最低试验剂量2 mg/kg体重/天的剂量水平下，抗体反应下降了32%。抗体抑制与脾脏中显著的免疫细胞损失相关；然而，很明显，TDAR的抑制比细胞损失更敏感，这表明涉及细胞功能损伤。菲处理也导致抗体反应的抑制，但只有在剂量水平≥50 mg/kg体重/天时，对其他参数没有显著影响，而芘没有显着的免疫效应。结论：TDAR对SRBC免疫的抑制是最敏感的免疫终点，其敏感性是肝脏体重变化的33倍，肝脏体重变化是pac风险评估的常用指标。苯并(a)芘在抑制体液免疫方面是最有效的PAC，而芘不影响所测试的免疫反应。这些研究为评价具有一系列免疫毒理学效力的各种pac奠定了基础。

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