MANILA, Philippines – Carcinogen is a word that jumps off the page. It makes us think of nefarious chemicals and noxious pollutants. So, it’s startling to see sunlight — or, to be more precise, the invisible, ultraviolet portion of sunlight — labeled a carcinogen, a term that can be applied to anything believed to cause cancer. There are some nuances to the evidence, but overall, there’s not much question that exposure to ultraviolet light is a risk factor for all three types of skin cancer: basal cell, squamous cell, and melanoma.
But it’s gotten more complicated lately because a steady stream of findings has linked sun exposure to lower rates of some cancers — especially colon cancer, but others as well. Sunlight may have this anticancer effect — because when our skin is exposed to ultraviolet light it makes vitamin D, and vitamin D seems to be a powerhouse of a vitamin.
Finding The Middle Ground
The pros and cons of sun exposure have fueled occasionally heated debates. On one side are most dermatologists, who continue to stress skin cancer prevention and the importance of avoiding midday sun and applying sunscreen. On the other hand are many vitamin D researchers who believe that by so assiduously shielding ourselves from sunlight, we might be missing out on the myriad benefits of their favorite vitamin. Fortunately, a sizable patch of middle ground exists between the two camps, acknowledging the dangers of sun exposure while giving vitamin D its due.
The ultra in ultraviolet refers to wavelengths that are even shorter than those that humans see as purplish violet. The ultraviolet light produced by the sun that reaches the earth’s surface is subdivided into ultraviolet B (UVB), which comes in wavelengths of 290 and 320 nanometers (nm), and ultraviolet A (UVA), which, at wavelengths of about 320 to 400 nm, is closer to visible light (see diagram).
We don’t see UVA and UVB because of the way the human eye happens to be engineered, but they have a major effect on the skin, especially UVB. It’s UVB that causes sunburn and the damage to the DNA that leads to skin cancer, although there’s research implicating UVA as well.
But UVB is also responsible for the second edge that makes sunlight a double-edged sword, because it’s the energy from UBV that penetrates the skin and transforms a type of cholesterol molecule into a precursor of vitamin D — call it previtamin D. A metabolic hop, skip, and jump later — a sequence that takes place in the liver and kidneys — and previtamin D becomes the biologically active vitamin D.
Active vitamin D helps regulate how cells grow and mature, so in some circumstances it may put the brakes on cancerous runaway cell growth. Vitamin D also helps keep the immune system in line, which may be the reason animal and epidemiologic studies hint at a connection between low vitamin D levels and autoimmune disorders such as type 1 diabetes and multiple sclerosis.
Is sunscreen the anti-vitamin d?
Theoretically, sunscreen does stand in the way of maximizing vitamin D levels. The main purpose of sunscreen is to prevent sunburn, so most products are formulated to block the very same UVB wavelengths that trigger vitamin D production in the skin. Indeed, the sun protective factor (SPF) rating is a measure of how well the sunscreen stops UVB.
At a practical level, though, sunscreens probably aren’t a problem for several reasons. First, studies have shown that most people use far less sunscreen than the amounts used to arrive at the SPF, so the real-world SPF is about half of the one on the bottle. Unless you are super scrupulous about sunscreen, plenty of vitamin D-making UVB usually “leaks” through.
Second, it doesn’t take very long to make a lot of vitamin D, especially during the summer, so brief spells outside might give you all the vitamin D you need. Michael Holick, MD, the Boston University researcher who has done more to push vitamin D into the spotlight that anyone else, has written that a fair-skinned person can satisfy his or her vitamin D requirement during the summer months by exposing the arms and legs to sunshine for just five to 15 minutes two to three times a week between 10 a.m. and 3 p.m. He recommends the use of sun protection on the face, noting that it’s the area of the body that’s most exposed to the sun and is not a big contributor of vitamin D anyway.
Even if the UVB weren’t a cause of skin cancer, added sun exposure won’t be the answer to many people’s vitamin D woes. With age, the skin’s capacity for making vitamin D diminishes, so the effect of getting more sun is going to be limited in older folks. And the melanin that makes skin dark effectively filters out UVB, so dark-skinned people are much more likely than whites to have low levels of vitamin D. Researchers in the sun-drenched state of Arizona in the US reported last year that over half of the African-Americans in their colorectal cancer study had low vitamin D levels, defined as 20 nanograms per milliliter (ng/ml).
Diet And Supplements
US government guidelines say people between the ages of 51 and 70 should get 400 international units (IU) of vitamin D daily, and those 71 and older, 600 IU. Many experts, including Dr. Hollick, say people should shoot for 1,000 IU, because, on average, that’s how much it takes (along with incidental sun exposure) to get the levels in the blood to 30 ng/ml, the level at which prevention of cancer and other diseases seems to kick in.
When we’re short on a vitamin, then diet or supplements — or both — is usually the answer. But there are problems on both fronts with vitamin D. Just a few foods are natural sources of the vitamin: salmon (about 350 IU per 3.5-ounce serving), mackerel, sardines, and other kinds of oily seafood. In most countries, milk and other brands of orange juice are artificially fortified with 100 IU per eight ounces. Some breakfast cereals are also fortified.
Traditionally, supplement makers have used vitamin D2 (ergocalciferol), particularly in multivitamin pills. Some new data show little difference in the effects of D2 and D3 (cholecalciferol), the form used to fortify milk and contained naturally in fish, but the conventional wisdom had been that D2 is about a third to a fourth less effective than D3 at increasing blood levels of vitamin D. Because D3 has been presumed to be more potent, more vitamin D and vitamin D-calcium supplements are being made with it.
Other D-Fences
Losing weight may increase your active vitamin D levels. Vitamin D is fat soluble, so it may get locked up in extra fat tissue and become less bioavailable if we get heavy by adding body fat. In research studies, being overweight or obese has consistently been associated with low vitamin D levels.
There’s also the controversial question of whether tanning beds might be used to boost vitamin D levels — a popular practice in the United States and Europe. Indeed, the tanning salon industry has jumped at the chance to portray itself as a supplier of such a healthful vitamin. Research from Scandinavia that showed a limited number of “sunbed” session during the winter can lift vitamin D to summer levels has lent their case some legitimacy. The strong rebuttal from the American Academy of Dermatology is that indoor tanning usually involves exposure to UVB, that known carcinogen — not just UVA — and that there are far less risky ways of ramping up your vitamin D levels. So far, the dermatologists have got it right: The risks of indoor tanning aren’t worth the vitamin D benefits, especially when there are alternative ways to get them.
You can get too much vitamin D, but the level where toxicity is seen is almost certainly many times higher than the upper daily limit of 2,000 IU set by the US Institute of Medicine. For years, vitamin D researchers and experts have wanted a reevaluation of vitamin D minimums and maximums, but so far, this hasn’t happened.