In today's world, Benzopyrene is a highly relevant topic that has captured the attention of people of all ages and interests. Whether because of its impact on society, the economy, or popular culture, Benzopyrene has become a constant point of conversation and a point of analysis for academics, experts, and the curious alike. Over the years, Benzopyrene has evolved and generated deep debates, as well as important advances that have marked milestones in history. In this article, we will seek to explore the different facets of Benzopyrene and analyze its influence on our lives.
A benzopyrene is an organic compound with the formula C20H12. Structurally speaking, the colorless isomers of benzopyrene are pentacyclic hydrocarbons and are fusion products of pyrene and a phenylene group. Two isomeric species of benzopyrene are benzopyrene and the less common benzopyrene. They belong to the chemical class of polycyclic aromatic hydrocarbons.
Related compounds include cyclopentapyrenes, dibenzopyrenes, indenopyrenes and naphthopyrenes. Benzopyrene is a component of pitch and occurs together with other related pentacyclic aromatic species such as picene, benzofluoranthenes, and perylene. It is naturally emitted by forest fires and volcanic eruptions and can also be found in coal tar, cigarette smoke, wood smoke, and burnt foods such as coffee. Fumes that develop from fat dripping on blistering charcoal are rich in benzopyrene, which can condense on grilled goods.
Benzopyrenes are harmful because they form carcinogenic and mutagenic metabolites (such as (+)-benzopyrene-7,8-dihydrodiol-9,10-epoxide from benzopyrene) which intercalate into DNA, interfering with transcription. They are considered pollutants and carcinogens. The mechanism of action of benzopyrene-related DNA modification has been investigated extensively and relates to the activity of cytochrome P450 subclass 1A1 (CYP1A1). Seemingly, the high activity of CYP1A1 in the intestinal mucosa prevents major amounts of ingested benzopyrene from entering portal blood and systemic circulation. The intestinal (but not hepatic) detoxification mechanism seems to depend on receptors that recognize bacterial surface components (TLR2).
Evidence exists to link benzopyrene to the formation of lung cancer.
In February 2014, NASA announced a greatly upgraded database for tracking polycyclic aromatic hydrocarbons (PAHs), including benzopyrene, in the universe. According to scientists, more than 20% of the carbon in the universe may be associated with PAHs, possible starting materials for the formation of life. PAHs seem to have been formed several billion years after the Big Bang, are widespread throughout the universe, and are associated with new stars and exoplanets.
Media related to Benzopyrenes at Wikimedia Commons