Department of Pharmacy Practice, National Institute of Pharmaceutical Education and Research (NIPER), Bihar, Hajipur, India.
Department of Pharmaceutical Analysis, National Institute of Pharmaceutical Education and Research (NIPER), Bihar, Hajipur, India.
Biol Trace Elem Res. 2022 Dec;200(12):4955-4966. doi: 10.1007/s12011-022-03097-7. Epub 2022 Feb 7.
Arsenic contamination has long been recognized as one of the most harmful environmental pollutants resulting from anthropogenic activity. Apart from being an environmental toxicant or pollutant, this culpable heavy metal also has detrimental effects on human health. People throughout the world are exposed to arsenic (As) mostly through polluted drinking water. Acute inorganic arsenic (iAs) poisoning causes nausea, vomiting, stomach discomfort, and severe diarrhea. As on long-term exposure is a potent carcinogen, characterized by IARC (International Agency for Research on Cancer). As levels are high mainly in Gangetic regions due to which the people living around are suffering the consequences. The carcinogenicity of As is well established but the immunotoxicity caused by it is still unknown. Some animal model supports the toxicity of As in the immune system as well, but in humans, mainly suffering from human immunodeficiency virus (HIV), it is not well established. iAs suppresses the immune system by acting on different targets and exacerbating infections. Although animal studies have demonstrated that arsenic trioxide (AsO) reduces viral rebound and restores CD4 + count in vivo when coupled with antiretroviral medications, elemental AS may have devastating effects on the immune system of HIV patients, making them more prone to opportunistic infections (OIs). It is well known that in later stages of HIV infection, neurological problems also complicate the conditions such as cognitive impairment and AIDS dementia complex (ADC). Along with immunotoxicity, As has the potential to damage HIV patients' brains. This article addresses the immunotoxicity of arsenic and exacerbations caused by it, along with the neurotoxicity, particularly in HIV patients residing near the Gangetic belt.
砷污染长期以来一直被认为是人为活动造成的最有害的环境污染物之一。这种有害重金属不仅是一种环境毒物或污染物,而且对人类健康也有不利影响。全世界的人主要通过受污染的饮用水接触砷(As)。急性无机砷(iAs)中毒会导致恶心、呕吐、胃部不适和严重腹泻。长期接触砷是一种强有力的致癌物质,国际癌症研究机构(IARC)对其进行了特征描述。由于恒河地区的砷含量较高,生活在该地区的人们首当其冲地受到了影响。砷的致癌性已得到充分证实,但它引起的免疫毒性仍不清楚。一些动物模型支持砷对免疫系统的毒性,但在人类中,主要是感染人类免疫缺陷病毒(HIV)的患者中,这一点尚未得到充分证实。iAs 通过作用于不同靶点和加重感染来抑制免疫系统。尽管动物研究表明三氧化二砷(AsO)与抗逆转录病毒药物联合使用时可以减少病毒反弹并恢复 CD4+计数,但元素砷可能对 HIV 患者的免疫系统产生毁灭性影响,使他们更容易感染机会性感染(OIs)。众所周知,在 HIV 感染的后期,神经问题也会使认知障碍和艾滋病痴呆症(ADC)等情况复杂化。除了免疫毒性外,砷还有可能损害 HIV 患者的大脑。本文探讨了砷的免疫毒性及其引起的恶化,以及神经毒性,特别是在恒河地区的 HIV 患者中。
