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Unmasking Skin

“I’ve had ’em burned off, cut off, x-rayed, you name it,” says former Australian lifeguard Don Bennewith of his skin cancers. Each adhesive dot represents a removed lesion. “I lost count at 532,” he says. With only minutes of sun exposure, skin cells stained with a fluorescent dye show signs of increasing DNA damage. The cells may repair such damage, but sometimes they fail and become cancerous.

Tom Stevens sits across from me at a cafe in a small town in upstate New York. He has a handsome face and a powerful build. But his ears are stubs tucked tightly to the sides of his head, and when he takes off his baseball cap, I see that his scalp, except for a thin strip, is a mass of scar tissue.

“I lost my helmet somewhere in the house trailer just before the flashover hit,” says Stevens. “It was about 2,000 degrees Fahrenheit (1,093 degree Celsius) in there when I jumped out the window.”

Five years ago Stevens was a volunteer firefighter. Now, preparing for his sixth major reconstructive surgery, he laughs. “I’m learning more about skin than I ever wanted to know.”

If you took off your skin and laid it flat, it would cover an area of about 21 square feet (2 square meters), making it by far the body’s largest organ. Draped in place over our bodies, skin forms the barrier between what’s inside us and what’s outside. It protects us from a multitude of external forces. It serves as an avenue to our most intimate physical and psychological selves.

This impervious yet permeable barrier, less than a millimeter thick in places, is composed of three layers. The outermost layer is the bloodless epidermis. The dermis includes collagen, elastin, and nerve endings. The innermost layer, subcutaneous fat, contains tissue that acts as an energy source, cushion, and insulator for the body.

From these familiar characteristics of skin emerge the profound mysteries of touch, arguably our most essential source of sensory stimulation. We can live without seeing or hearing—in fact, without any of our other senses. But babies born without effective nerve connections between skin and brain can fail to thrive and may even die.

Laboratory experiments decades ago, now considered unethical and inhumane, kept baby monkeys from being touched by their mothers. It made no difference that the babies could see, hear, and smell their mothers; without touching, the babies became apathetic and failed to progress. Deprived of their mothers, they did not explore as young primates normally do; rather they “threw themselves prone on the chamber floor, crying and grimacing all the time, or huddled against a chamber wall, rocking back and forth with their hands over their heads or faces,” according to one report.

For humans insufficient touching in early years can have lifelong results. “In touching cultures, adult aggression is low, whereas in cultures where touch is limited, adult aggression is high,” writes Tiffany Field, director of the Touch Research Institutes at the University of Miami School of Medicine. Studies of a variety of cultures show a correspondence between high rates of physical affection in childhood and low rates of adult physical violence.

While the effects of touching are easy to understand, the mechanics of it are less so. “Your skin has millions of nerve cells of various shapes at different depths; explains Stanley Bolanowski, a neuroscientist and associate director of the Institute for Sensory Research at Syracuse University. “When the nerve cells are stimulated, physical energy is transformed into energy used by the nervous system and passed from the skin to the spinal cord and brain. It’s called transduction, and no one knows exactly how it takes place.” Suffice it to say that the process involves the intricate, split-second operation of a complex system of signals between neurons in the skin and brain.

Human Bodies Make Their Own Morphine

A laboratory morphine vial from the 1880s.

Our bodies produce a small but steady amount of natural morphine, a new study suggests.

Traces of the chemical are often found in mouse and human urine, leading scientists to wonder whether the drug is being made naturally or being delivered by something the subjects consumed.

The new research shows that mice produce the “incredible painkiller”—and that humans and other mammals possess the same chemical road map for making it, said study co-author Meinhart Zenk, who studies plant-based pharmaceuticals at the Donald Danforth Plant Science Center in St. Louis, Missouri.

In the study, researchers injected mice with an extra dose of a natural brain chemical called tetrahydropapaveroline (THP), which humans and mice are known to produce.

Using a tool called a mass spectrometer to analyze the mouse urine, the team was able to tell that THP underwent chemical changes in the body that created morphine, according to the study, published this week in the journal Proceedings of the National Academy of Sciences.

What’s more, the study found that mouse morphine is produced in nearly the same way as the morphine in poppies—the only morphine-making plants known to science.

Morphine a Defense Mechanism?

But “the big question is, What is it for?” Zenk said of the mammal-made morphine.

THP must undergo a complicated, 17-step process in the body to create morphine. Even so, the chemical has evolved twice—in poppies and in mammals—suggesting it’s somehow valuable for survival.

In the well-studied poppy plant, scientists suspect morphine acts as a defense against predators. For instance, a rabbit eating—and thus killing—a morphine-laced poppy may become sluggish, making itself easy prey for a passing hawk.

Likewise, Zenk noted, if an animal attacks a person, even background levels of morphine may block out enough pain to allow the person to escape. (Explore the human body.)

For now, however, this is “absolute speculation,” Zenk said. Next he plans to test the urine of people who have endured horrible pain—such as traffic-accident victims—to see if their bodies spiked morphine levels.

It’s also difficult to say whether the discovery will yield any new treatments, Zenk added. (Related: “Toxic Snail Venoms Yielding New Painkillers, Drugs.”)

But it’s possible that scientists could someday induce a person’s body to create a natural jolt of morphine that might prove less damaging than injecting the substance into the body. Morphine shots can carry many side effects, he said—especially constipation.

Pomegranate compounds may ease breast cancer risk

Pomegranate compounds may ease breast cancer risk

Enzyme-blocking chemicals in pomegranates may reduce the risk of estrogen-fueled breast cancers, U.S. researchers said on Tuesday.

An acid found in pomegranates appears to block aromatase, an enzyme that converts androgen to estrogen, a hormone that plays a role in the development of breast cancer, the researchers wrote in the journal Cancer Prevention Research.

“We identified some of these chemicals in pomegranates that actually have properties that can suppress aromatase,” researcher Shiuan Chen, of the City of Hope cancer research and treatment center in Duarte, California, said in a telephone interview.

Many women who have had breast cancer take medicines called aromatase inhibitors — such as Pfizer’s Aromasin, Novartis’ Femara and AstraZeneca Plc’s Arimidex — to keep estrogen from feeding tumors.

Chen and colleagues studied whether compounds, or phytochemicals, in pomegranates can suppress aromatase and ultimately block cancer growth. They found that 10 natural compounds in the fruit may potentially prevent estrogen-related breast cancer.

Chen said the compounds would not be a replacement for aromatase inhibitors.

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