If you wait long enough? I have
already posted at some length on this topic, but this particular bit is an
outright vindication of Lamarck.
I also expect intelligent design to also be vindicated, but not quite the
way the religious crowd would like. It turns
out that an alternative source of intelligence is readily available and when
their intellectual environment changes that they respond as best they may.
It is going to take a while to rewrite all those text books again but your
take home is that natural selection is helped along by intelligent parents
constantly improving their chances against a hostile world. Makes way more sense than God rolling the dice!
For students of the history of science, the irony is rich. No reputations are left intact.
You Are What Your Father Ate
by Staff
Writers
Scientists at the University of Massachusetts Medical School and the University of Texas at Austin have uncovered evidence that environmental influences experienced by a father can be passed down to the next generation, "reprogramming" how genes function in offspring. A new study published this week in Cell shows that environmental cues-in this case, diet-influence genes in mammals from one generation to the next, evidence that until now has been sparse.
These insights,
coupled with previous human epidemiological studies, suggest that paternal
environmental effects may play a more important role in complex diseases such
as diabetes and heart disease than previously believed.
"Knowing what
your parents were doing before you were conceived is turning out to be
important in determining what disease risk factors you may be carrying,"
said Oliver J. Rando, MD, PhD, associate professor of biochemistry and
molecular pharmacology at UMMS and principal investigator for
the study, which details how paternal diet can increase production of
cholesterol synthesis genes in first-generation offspring.
The human genome is
often described as the set of instructions that govern the development and
functioning of life. It's not surprising, then, that most contemporary genetic
research focuses on understanding and cataloging how mutations and changes to
our DNA-the basis of those "instructions"-cause disease and impact
health.
A number of recent
studies, however, have begun to draw attention to the role epigenetic
inheritance - inherited changes in gene expression caused by mechanisms other
than changes in the underlying DNA sequence - may play in a host of illnesses.
"A major and underappreciated aspect of what is transmitted from parent to
child is ancestral environment," said Dr. Rando. "Our findings
suggest there are many ways that parents can 'tell' their children
things."
To test their
hypothesis that environmental influences experienced by the father can be
passed down to the next generation in the form of changed epigenetic
information, Rando and colleagues fed different diets to two groups of male
mice. The first group received a standard diet, while the second received a
low-protein diet.
To control for
maternal influences, all females were fed the same, standard diet. Rando and
colleagues observed that offspring of the mice fed the low-protein diet
exhibited a marked increase in the genes responsible for lipid and cholesterol
synthesis in comparison to offspring of the control group fed the
standard diet.
These observations are
consistent with epidemiological data from two well-known human studies
suggesting that parental diet has an effect on the health of offspring. One of
these studies, called the Overkalix Cohort Study, conducted among residents of
an isolated community in the far northeast of Sweden
However, because these
studies are retrospective and involve dynamic populations, they are unable to
completely account for all social and economic variables. "Our study
begins to rule out the possibility that social and economic factors, or
differences in the DNA sequence, may be contributing to what we're
seeing," said Rando. "It strongly implicates epigenetic inheritance
as a contributing factor to changes in gene function."
The results also have
implications for our understanding of evolutionary processes, says Hans A.
Hofmann, PhD, associate professor of integrative biology at the University of Texas
at Austin
Our results show that
offspring can inherit such acquired characters even from a parent they have
never directly interacted with, which provides a novel mechanism through which
natural selection could act in the course of evolution." Such a process
was first proposed by the early evolutionist Jean-Baptiste Lamarck, but then
dismissed by 20th century biologists when genetic evidence seemed to provide a
sufficient explanation.
Taken together, these
studies suggest that a better understanding of the environment experienced by
our parents, such as diet, may be a useful clinical tool for assessing disease
risk for illnesses, such as diabetes or heart disease.
"We often look at
a patient's behavior and their genes to assess risk," said Rando. "If
the patient smokes, they are going to be at an increased risk for cancer. If the family has a long history of heart disease,
they might carry a gene that makes them more susceptible to heart disease. But
we're more than just our genes and our behavior. Knowing what environmental
factors your parents experienced is also important."
The next step for
Rando and colleagues is to explore how and why this genetic reprogramming is
being transmitted from generation to generation. "We don't know why these
genes are being reprogrammed or how, precisely, that information is being
passed down to the next generation," said Rando.
"It's consistent
with the idea that when parents go hungry, it's best for offspring to hoard
calories, however, it's not clear if these changes are advantageous in the
context of a low-protein diet."
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