The threat of air pollution grabs our attention when we see it — for example, the tendrils of smoke of Australian brush fires, now visible from space, or the poisonous soup of smog that descends on cities like New Delhi in the winter.
But polluted air also harms billions of people on a continuing basis. Outdoors, we breathe in toxins delivered by car traffic, coal-fired plants and oil refineries. Indoor fires for heat and cooking taint the air for billions of people in poor countries. More than 1 billion people add toxins to their lungs by smoking cigarettes — and more recently, by vaping.
Ninety-two percent of the world’s people live in places where fine particulate matter — the very small particles most dangerous to human tissues — exceeds the World Health Organization’s guideline for healthy air. Air pollution and tobacco together are responsible for up to 20 million premature deaths each year.
Airborne toxins damage us in a staggering number of ways. Along with well-established links to lung cancer and heart disease, researchers are now finding new connections to disorders such as diabetes and Alzheimer’s disease.
Scientists are still figuring out how air pollution causes these ailments. They are also puzzling over the apparent resilience that some people have to this modern onslaught.
Some researchers now argue that the answers to these questions lie in our distant evolutionary past, millions of years before the first cigarette was lit and the first car hit the road.
Our ancestors were bedeviled by airborne toxins even as bipedal apes walking the African savanna, argued Benjamin Trumble, a biologist at Arizona State University, and Caleb Finch of the University of Southern California, in the December issue of the Quarterly Review of Biology.
Our forebears evolved defenses against these pollutants, the scientists propose. Today, those adaptations may provide protection, albeit limited, against tobacco smoke and other airborne threats.
But our evolutionary legacy may also be a burden, Trumble and Finch speculated. Some genetic adaptations may have increased our vulnerability to diseases linked to air pollution.
It is “a really creative, interesting contribution to evolutionary medicine,” said Molly Fox, an anthropologist at the University of California, Los Angeles, who was not involved in the new study.
The story begins about 7 million years ago. Africa at the time was gradually growing more arid. The Sahara emerged in northern Africa, while grasslands opened up in eastern and southern Africa.
The ancestors of chimpanzees and gorillas remained in the retreating forests, but our ancient relatives adapted to the new environments. They evolved into a tall, slender frame well suited to walking and running long distances.
Finch and Trumble believe that early humans faced another challenge that has gone largely overlooked: the air.
Periodically, the savanna would have experienced heavy dust storms from the Sahara, and our distant ancestors may have risked harm to their lungs from breathing in the silica-rich particles.
“When the dust is up, we’re going to see more pulmonary problems,” Finch said. Even today, Greek researchers have found that when Sahara winds reach their country, patients surge into hospitals with respiratory complaints.
The dense foliage of tropical forests gave chimpanzees and gorillas a refuge from dust. But the earliest humans, wandering the open grasslands, had nowhere to hide. Dust was not the only hazard. The lungs of early humans also may have been irritated by the high levels of pollen and particles of fecal matter produced by the savanna’s vast herds of grazing animals.
Finch and Trumble maintain that scientists should consider whether these new challenges altered our biology through natural selection. Is it possible, for instance, that people who are resilient to cigarette smoke have inherited genetic variants that protected their distant ancestors from cave fires?
One way to answer these questions is to look at genes that have evolved significantly since our ancestors moved out of the forests. One of them is MARCO, which provides the blueprint for production of a molecular hook used by immune cells in our lungs. The cells use this hook to clear away both bacteria and particles, including silica dust. The human version of the MARCO gene is distinctively different from that of other apes. That transformation happened at least half a million years ago. (Neanderthals carried the variant, too.) Breathing dusty air drove the evolution of MARCO in our savanna-walking ancestors, Finch and Trumble hypothesize.
Later, our ancestors added to airborne threats by mastering fire. As they lingered near hearths to cook food, stay warm or keep away from insects, they breathed in smoke. Once early humans began building shelters, the environment became more harmful to their lungs.
“Most traditional people live in a highly smoky environment,” Finch said. “I think it has been a fact of human living for us even before our species.”
Smoke created a new evolutionary pressure, he and Trumble believe. Humans evolved powerful liver enzymes, for example, to break down toxins passing into the bloodstream from the lungs.
Gary Perdew, a molecular toxicologist at Penn State University, and his colleagues have found evidence of smoke-driven evolution in another gene, AHR.
This gene makes a protein found on cells in the gut, lungs and skin. When toxins get snagged on the protein, cells release enzymes that break down the poisons.
Other mammals use AHR to detoxify their food. But the protein is also effective against some of the compounds in wood smoke.
Compared to other species, the human version produces a weaker response to toxins, perhaps because AHR protein is not the perfect protector — the fragments it leaves behind can cause tissue damage.
Before fire, our ancestors did not need to use AHR very often; in theory, their bodies could tolerate the limited damage the protein caused.
But when we began breathing smoke regularly and needing the AHR protein constantly, the gene might have become dangerous to our health.
Perdew believes that humans evolved a weaker AHR response as a way to find “a sweet spot,” a compromise that minimized the damage of airborne pollutants without causing too many side effects.
These adaptations were never perfect, as evidenced by the fact that millions of people still die today from indoor air pollution. But evolution doesn’t seek perfect health.
“All that matters from an evolutionary standpoint is that you reproduce,” Perdew said. “If you die in your 40s, so what? It’s kind of a cold, heartless way to think about it, but it is what it is.”
A changed atmosphere
Our species arrived at the Industrial Revolution two centuries ago with bodies that had been shaped for millions of years by this highly imperfect process
Clean water, improved medicines and other innovations drastically reduced deaths from infectious diseases. The average life expectancy shot up. But our exposure to airborne toxins also increased.
“If we compressed the last 5 million years into a single year, it wouldn’t be until Dec. 31, 11:40 p.m., that the Industrial Revolution begins,” Trumble said. “We are living in just the tiniest little blip of human existence, yet we think everything around us is what’s normal.”
The Industrial Revolution was powered largely by coal, and people began breathing the fumes. Cars became ubiquitous; power plants and oil refineries spread. Tobacco companies made cigarettes on an industrial scale. Today, they sell 6.5 trillion cigarettes every year.
Our bodies responded with defenses honed over hundreds of thousands of years. One of their most potent responses was inflammation. But instead of brief bursts of inflammation, many people began to experience it constantly.
Many studies now suggest that chronic inflammation represents an important link between airborne toxins and disease. In the brain, for example, chronic inflammation may impair our ability to clear up defective proteins. As those proteins accumulate, they may lead to dementia.
Pathogens can hitch a ride on particles of pollutants. When they get in our noses, they can make contact with nerve endings. There, they can trigger even more inflammation.
“They provide this highway that’s a direct route to the brain,” Fox, of UCLA, said. “I think that’s what makes this a particularly scary story.”
Some genetic variants that arose in our smoky past may offer some help now. They might allow some people to live long despite smoking, Finch and Trumble suggest.
But the researchers have studied another gene for which the opposite seems to be true: a variant that was once helpful has become harmful in an age of rising air pollution.
The variant, ApoE4, first came to light because it drastically raises the risk of developing Alzheimer’s disease. More recently, researchers have also discovered that ApoE4 increases the risk that exposure to air pollution leads to dementia.
But these studies were restricted to industrialized countries. When researchers looked to other societies — such as farmers in poor villages in Ghana, or indigenous forest-dwellers in Bolivia — ApoE4 had a very different effect.
In these societies, infectious diseases remain a major cause of death, especially in children. Researchers have found that in such places, ApoE4 increases the odds that people will survive to adulthood and have children.
Natural selection may have favored ApoE4 for hundreds of thousands of years because of this ability to increase survival. But this gene and others may have had harmful side effects that remained invisible until the sooty, smoky modern age.
HBD Pawan Kalyan: Rare Pics Of Power Star
Is there any need to tell about Power Star Pawan Kalyan, Obviously, a big No? He is not only an actor but also a director, screenwriter, stunt coordinator, philanthropist, and politician. He is the younger brother of Megastar Chiranjeevi. Pawan Kalyan stepped into the film industry with the movie, Akkada Ammayi Ikkada Abbayi. He acted in various films like Tholi Prema, Gokulamlo Seeta, Suswagatham, Tholi Prema, Thammudu, Badri, Kushi, Jalsa, Gabbar Singh, Gopala Gopala and Attarintiki Daredi, etc.
Pawan Kalyan received the Filmfare Award for Best Actor – Telugu for Gabbar Singh while Attarintiki Daredi created the record of being the highest grossing Telugu movie. He was listed 26th in 2013, 69th in 2017, and 24th in 2018 respectively in the Forbes India list of top 100 Celebrities. Pawan Kalyan finances movies under the banners Anjana Productions and Pawan Kalyan Creative Works.
Pawan Kalyan married Nandini in 1997 and took divorce from her. He was in live-in relationship with Renu Desai and after eight years of live-in relationship, he married the ‘Badri’actress. The couple was blessed with two children – Akira Nandan and Aadhya. The couple parted ways in 2012 and now he is with his third wife, Anna Lezhneva, a Russian citizen. He married her and the couple has a daughter Polena Anjana Pawanona and a son Mark Shankar Pawanovich.
Pawan Kalyan entered into politics, as the president of the youth wing of Praja Rajyam Party, founded by his brother Chiranjeevi. He left the party after Chiranjeevi merged it into the Congress party. In March 2014, Pawan Kalyan founded the Jana Sena Party.
Power Star Pawan Kalyan enjoys an incredible fan following in the two Telugu states.
Happy Birthday Pawan Kalyan: Don’t Miss Bheemla Nayak Title Song
Tollywood Power Star Pawan Kalyan is celebrating his 50th birthday today. On this special occasion the makers of his upcoming movie, Bheemla Nayak have released the title song. Music Director S Thaman took to his Twitter and shared the title song of the film. Here is the song, just give a look at it.
The song was sung by Thaman S, Sri Krishna, Prudhvi Chandra & Ram Miriyala and the lyrics penned by Ramajogaiah Sastry.
In the song, one could see beautiful visuals and the lyrics are so meaningful. The song opens with a folksinger singing the song and the song is going to create a new record for sure. The audiences are feeling that Thaman has scored the best music for the song.
Bheemla Nayak is an action thriller film directed by Saagar K. Chandra from a screenplay written by Trivikram Srinivas. It is a remake of the 2020 Malayalam film Ayyappanum Koshiyum by Sachy. Bankrolled by Suryadevara Naga Vamsi of Sithara Entertainments, the film stars Pawan Kalyan, Rana Daggubati, Nithya Menen, and Aishwarya Rajesh. In the movie, Pawan Kalyan will be seen as SI Bheemla Nayak and Rana will be essaying the role of Danny Shekar.
In June 2020, Sithara Entertainments bought the Telugu remake rights of the Malayalam film Ayyappanum Koshiyum. Saagar K Chandra who earlier directed Appatlo Okadundevadu is the director of the movie.
S Thaman is the music director of the film with cinematography and editing performed by Ravi K. Chandran and Naveen Nooli respectively. The film is scheduled for release on 12 January 2022. Expectations are very high on the grand celluloid.
Mega Alludu’s ‘Kinnerasani’ Teaser Is Interesting!
Kalyaan Dhev is going to enthrall audience with the movie, Kinnerasani. The makers of the movie have released the teaser of the film. The teaser is quite interesting. Ravindra Vijay, Ann Sheetal, Mahathi Bikshu, Kashish Khan will be seen in key roles in the flick. The movie is a mystery thriller that follows the journey of Veda who is in search of her father. Movie, helmed by Ramana Teja, written by Desharaj. Mahathi Swara Sagar is going to compose music for the film and bankrolled by Ram Talluri under SRT Entertainments. Here is the teaser, just give a look at the video.
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