Feces fossils show connection between Native-Americans, diabetes: Did fat-hoarding genes develop from the nature of ancient feasts?

ScienceDaily (July 24, 2012) — Why do Native Americans experience high rates of diabetes? A common theory is that they possess fat-hoarding "thrifty genes" left over from their ancestors -- genes that were required for survival during ancient cycles of feast and famine, but that now contribute to the disease in a modern world of more fatty and sugary diets.

See Also:Health & MedicineNutritionDiet and Weight LossCholesterolFossils & RuinsAncient CivilizationsArchaeologyFossilsReferenceDiabetic dietSouth Beach dietGlycemic indexMediterranean diet

A newly published analysis of fossilized feces from the American Southwest, however, suggests this "thrifty gene" may not have developed because of how often ancient Natives ate. Instead, researchers said, the connection may have come from precisely what they ate.

The research, which appears in the latest edition of the journal Current Anthropology, suggests that the prehistoric hunter-gatherer civilizations of the Southwest lived on a diet very high in fiber, very low in fat and dominated by foods extremely low on the glycemic index, a measure of effects food has on blood sugar levels. This diet, researchers said, could have been sufficient to give rise to the fat-storing "thrifty genes."

"What we're saying is we don't really need to look to feast or famine as a basis for (the genes)," said Karl Reinhard, professor of forensic sciences at the University of Nebraska-Lincoln's School of Natural Resources and the study's lead author. "The feast-or-famine scenario long hypothesized to be the pressure for 'thrifty genes' isn't necessary, given the dietary evidence we've found."

Natives have some of the highest rates of Type 2 diabetes of any group and are more than twice as likely to develop the disease as are Caucasians. The notion the gene's origin goes back to feast-and-famine cycles among prehistoric hunter-gatherer ancestors has been discussed for nearly a half-century.

To fully understand the basis of the high rates, Reinhard said, "one has to look at the best dietary data one can find. That comes from coprolites (the official term for fossilized feces). By looking at coprolites, we're seeing exactly what people ate."

The coprolites are from Antelope Cave, a deep cavern in northern Arizona where, over several thousands of years, was home to various cultures. That includes the Ancestral Pueblan peoples, who are believed to have lived there seasonally for at least 450 years.

Reinhard and Keith Johnson, an archeologist at California State University, Chico, studied 20 coprolites found in the cave and combined it with analysis from other sites for hints of ancient Natives' diets. They found clues to a food regimen dominated by maize and high-fiber seed from sunflowers, wild grasses, pigweed and amaranth. Prickly pear, a desert succulent, was also found repeatedly in the samples.

By volume, about three-quarters of the Antelope Cave coprolites were made up of insoluble fiber. The foods also were low on the glycemic index; some research suggests that high-GI foods may increase risk of obesity and diabetes.

The analysts' findings led them to deduce that the nature of the feast, and not necessarily its frequency, was enough to lock the "thrifty" genes in place -- and leave modern Natives more susceptible to diabetes as their diets evolved to lower-fiber, higher-GI foods.

"These were not just famine foods," the authors wrote. "These were the foods eaten on a day-by-day basis during all seasons in both feast and famine. They continued to be eaten even after agriculture was developed. Antelope Cave coprolites show that this high-fiber diet was eaten during the warmer seasons of food abundance."

In addition to UNL's Reinhard and California State Chico's Johnson, the study was authored by Isabel Teixeira-Santos and Monica Viera of the Escola Nacional de Saude Publica in Rio de Janeiro, Brazil.

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Genes Influence Whether Psych Drugs Lead to Weight Gain

HealthDay – 1 hr 23 mins ago FRIDAY, July 20 (HealthDay News) -- Researchers have discovered two genetic variants associated with substantial, rapid weight gain in people taking antipsychotic medications.

The researchers said the findings could eventually be used by doctors to identify which patients have the variations so they can be treated without the risk of weight gain, which can lead to obesity and health problems including diabetes and heart disease.

"Weight gain occurs in up to 40 percent of patients taking medications called second-generation or atypical antipsychotics, which are used because they're effective in controlling the major symptoms of schizophrenia," Dr. James Kennedy, of the Center for Addiction and Mental Health, in Toronto, said in a center news release.

Kennedy, senior author of a study published online recently in the journal Archives of General Psychiatry, pinpointed a variation near the melanocortin-4 receptor gene, which is known to be linked to obesity.

The study of patients in Europe and the United States being treated with atypical antipsychotics found that those with two copies of the variant gained about three times as much weight as those with one or no copies -- about 13 pounds vs. 4 pounds.

"The weight gain was associated with this genetic variation in all these groups, which included pediatric patients with severe behavior or mood problems, and patients with schizophrenia experiencing a first episode or who did not respond to other antipsychotic treatments," Dr. Daniel Muller, study co-author and Center for Addiction and Mental Health scientist, said in the news release.

"The results from our genetic analysis combined with this diverse set of patients provide compelling evidence for the role of this

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New study nets eight new genes for osteoarthritis

"An elderly woman walks with a walker in 2011. The biggest probe yet into the inherited causes of osteoarthritis has turned up eight genes associated with this painful disease, bringing the tally of suspects to 11, The Lancet reported on Tuesday. Osteoarthritis is the commonest form of arthritis, affecting about 40 percent of the world's population aged older than 70. (AFP Photo/Eric Cabanis)" title

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Anti aging genes discovered

June 13, 2012 by admin

The Fountain of Youth, an anti aging nectar that prolongs time spend on earth; a nectar that can cure every health problem; a nectar, unfortunately, that can be found only in fictional stories. In spite of its fictional existence, the fountain of youth is a kick-start motif for scientist search for longer life span. Youth is the greatest period in everyman’s life and forever young a common wish.

Scientist claim that the root of longer life span lies in human’s genes. It is not something that you can gain reaching certain age and it is not something that you can make by consuming special drugs. Centurion is created from birth. Through out the years scientists have made many researches concerning longer life-span situation. One type of research is published in Science and has two parts.

The first part is called GWAS, or “genome-wide association study.” About 1,000 people over 100 years old were part of the New England Centenarian Study.

The obtained data was compared to a normal aging group of people; their number was also about 1,000. 70 genes were found in centenarians, repeating the study to a smaller group gave the result of 33 genes.

To make sure that everything is fair-and-square, disease-causing genes were examined in both of the groups, centenarians and normal aging people. It was confirmed that centenarians were exposed to disease as much as the normal aging people. The interesting thing is that strong immunity was given to the centenarians by the genes, ergo, longer healthy days.

150 people, centenarians and normal aging people, underwent the model research without the knowledge of who has 70 genes of longer life. The model was 77 % accurate in his prediction to which group the subject belong to. It gave 19 different genetic combinations in the centenarians.

An interesting fact about this is that 15 % had those combinations, meaning that 15 % of us should reach the age of 100 years old, and even more. But reality bites with the result of 1 in 6,000.

There are scientists that greet these results and consider them good data for future research. There are others that counter them stating that the number of people in the research is not enough.

Science confirms the fact that genes have major role in longer life. But it also, firmly states, that if you don’t take care of your body, it won’t be able to take care of you. Healthy nutrition and exercising on a regular schedule is a perfect natural way to contribute years on your calendar. Every body is undergoes aging; so, make it a healthy aging process.

 

Anti Aging

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Genes Might Cause Some to Shun Pork

HealthDay – 3 hrs ago WEDNESDAY, May 2 (HealthDay News) -- Not a big fan of bacon or ham? Your genes might be behind it, a new study finds.

Researchers found that 70 percent of participants had two functional copies of a gene linked to a particular odor receptor in the brain. This cellular receptor is attuned to a compound in male mammals called androstenone, which is also common in pork.

In the study, 23 people were asked to smell pork. Those with either one or no functional copies of the RT gene could tolerate the scent of androstenone much better than those with two copies of the gene -- suggesting a mechanism by which some people find pork more or less appetizing.

The findings appear online May 2 in the PLoS One.

Study author Hiroaki Matsunami, an associate professor of molecular genetics and microbiology at Duke University Medical Center, said he wants to do similar research in specific populations, such as people in the Middle East, where eating pork is avoided.

"I would also like to know about odor receptor variants in indigenous populations, such as people who live near the Arctic Circle and who never eat these meats. What is their genotype?" Matsunami said in a Duke news release.

He suggested that vegetarians may have a genetic predisposition against the smell of meat and wondered if meat inspectors with both copies of the RT gene would make different decisions in their jobs.

More information

The American Academy of Otolaryngology -- Head and Neck Surgery has more about smell and taste.

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Obese Kids: Genes, Junk Food Share Blame

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Scientists Pinpoint Childhood Obesity Genes

HealthDay – 43 mins ago SUNDAY, April 8 (HealthDay News) -- For the first time, scientists have isolated mutations at two gene locations that seem to predispose children to becoming obese.

"We see a clear genetic signature to childhood obesity, showing that there is more than just an environmental component to this disease," Struan Grant, senior author of the research, said at an April 5 press conference.

Although known genes have been linked to adult obesity and also to extreme forms of childhood obesity, the newly identified genes confer only a modest risk of developing common childhood obesity. But they are "very common in the population," Grant added in a telephone interview.

Grant is associate director of the Center for Applied Genomics at the Children's Hospital of Philadelphia Research Institute. His research was published online April 8 in Nature Genetics.

Obesity has become a public health crisis of global proportions, affecting not only adults but also, increasingly, children.

"In the U.S., the prevalence of childhood obesity has tripled in recent decades and related health care costs have quadrupled," said Dr. Karen Winer, a program officer in the endocrinology, nutrition and growth branch of the Eunice Kennedy Shriver U.S. National Institute of Child Health and Human Development, which funded the study.

Clear environmental factors such as changing nutrition and reduced physical exercise have played a role in the childhood obesity crisis, but no genes had, until now, been identified.

The authors of this study pooled results from 14 genome-wide association studies conducted in the United States, Canada, Australia and Europe, involving a total of 5,530 children who were obese and 8,318 non-obese kids ("controls"), all of European descent.

This is the largest collection of DNA related to childhood obesity in the world, Winer said.

Obesity was defined as being above the 95th percentile in body mass index (a measurement that takes into account height and weight) while the healthy controls were all in the leaner half of the population.

When data was combined, two genes stood out: OLFM4 and HOXB5. The genes also showed signals in groups of extremely obese children.

And the genes were identifiable but weaker in adults, indicating that "these variants are conferring their risk early on in life and are really impactful in the first years of life," Grant said at the press conference.

Scientific literature to date indicates that the genes may be operating in the gut.

"We would look probably in that tissue area to see how it was conferring risk," Grant said at the press conference.

It's possible, for instance, that the genes may interact with food, he said.

Eric Schadt, chairman of the department of genetics and genomic sciences at Mount Sinai School of Medicine in New York City, said: "Absolutely, this is a disease that has genetic components and very strong environmental components and likely very strong genetic-by-environmental components. It's very, very complicated. We're only scratching the surface of genetic determinations of childhood obesity."

Once scientists learn more about the genes and how they work, they may lead to new treatments, added Schadt, who was not involved with the study.

More information

The U.S. Centers for Disease Control and Prevention has more on childhood obesity.

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New Lupus Genes Identified

HealthDay – 2 hrs 26 mins ago WEDNESDAY, April 4 (HealthDay News) -- Three new genes linked to the chronic autoimmune disease lupus have been identified by an international team of researchers.

The analysis of more than 17,000 genetic samples from people of several ethnic groups also pinpointed another 11 genetic regions that may be related to lupus and require further study.

The researchers found that the genes IRF8 and TMEM39a are associated with lupus in European-American, African-American, Gullah (a distinctive group of African-Americans in Georgia and South Carolina) and Asian patients. The gene IKZF3 is only significantly associated with lupus in African-Americans and European-Americans.

The researchers said their findings, which appear in the April 6 issue of the American Journal of Human Genetics, show that the genes that cause lupus aren't always universal.

The next step is to study the three genes to find out exactly what role they play in lupus, said lead author Christopher Lessard, a scientist at the Oklahoma Medical Research Foundation in Oklahoma City.

Lupus affects about 1.5 million Americans, and about 90 percent of patients are women. The disease causes the immune system to become overactive and attack the body's own cells. Symptoms include fatigue, fever, rashes and joint pain.

A combination of environmental and genetic factors cause lupus. Learning more about genetic risk factors may lead to improved diagnosis and treatment of the disease.

More information

The U.S. National Institute of Arthritis and Musculoskeletal and Skin Diseases has more about lupus.

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