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8/6/2019 How Healthy Nutrition Builds Health
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How Healthy Nutrition Builds Health, Starting With theCells ( With Graphics)
Introduction What is a cell? What nutrients are important for the health of my cells, and what do they do? Why are healthy foods so good for my cells? Nutrition and the Cellular Membrane
o Nutrition and your DNA
o Nutrition and Energy Production: the Mitochondria
Reactive Oxygen Species (ROS)o What are damaging Reactive Oxygen Species (ROS) such as Free
Radicals?
o How does my cell protect against damaging Reactive Oxygen Species
(ROS) such as Free Radicals What Can I Do to Support Healthy Cellular Nutrition?
Introduction: The "What," "How" and "Why" ofOptimizing Our Health through Nutrition
We are in the midst of a revolution in the way we understand nutrition and health.
Nutrition began as a study of what we need to survive in the most basic sense. Early
research in nutrition focused on determining the minimum amount of a nutrient necessaryin the diet to prevent the manifestation of an outwardly visible malfunction or obvious
disease.
Today, with advanced technology and the ability to see within the body -- and even
within cells themselves -- we are able to follow how nutrients really function. More
importantly, this new insight helps us to understand why having too little of theseimportant dietary components can lead to low energy levels, early aging, and even
disease. We can also see why the foods we decide to eat today affect our health not just
today, but many years later in our lives.
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What is a cell?
Cells are the fundamental units of life - the bricks from which all your tissues and organs
are made - and are the smallest components considered to be living organisms in yourbody. Your cells are constantly communicating with each other, responding to your
environment and to the signals they receive from what you touch and how you move. Ifyour cells cannot operate efficiently, the functioning of your tissues and organs, whichare built of your cells, will become compromised, and you can experience a
diminishment of physical functioning and the onset of a host of health conditions and
diseases. So, by keeping your cells well nourished, you are keeping yourself well
nourished.
Of the many important roles your cells play in your life everyday, keeping your DNAsafe from damage and providing energy for everything you do are two of the most
important. Your DNA is stored within your cell in the nucleus, and your cell has many
ways to keep it safe; however, research has shown that a poor diet -- one low in
antioxidants and other important phytonutrients -- and environmental exposure to toxins,like pesticides, can cause your DNA to become damaged. This damage (called a
mutation) can affect the ability of your cells to produce energy, can cause your cells to
die early resulting in compromised tissue or inflammation, and can even show up yearslater as cancer. We will discuss how you can use the world's healthiest foods to protect
your DNA from damage and support healthy aging, energy and function throughout your
life.
The average adult has around 30 trillion cells in his or her body, and every day thousands
of new cells are replicated from old ones. New cells are made to replace the old cells thatbecome worn-out or damaged. Providing the raw materials for the creation of these new
cells from the nutrients you get in your food is one way that nutrition plays an importantrole in sustaining your cellular, and therefore your overall health. In addition, certainnutrients also protect your cells from damage, and nutrients in foods support your body's
energy production machinery.
While cells of different tissues or organs may vary from one another in shape, size or
attributes, they each contain similar components that perform specific tasks. Let's take a
look inside one of your cells and see what the nutrients really do.
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What nutrients are important for the health of my
cells, and what do they do?
To more clearly illustrate how nutrition benefits health at a cellular level, let's take a look
at the function of three of your cell's components - (1) the cellular membrane, (2) the
nucleus, and (3) the mitochondria - and see how nutrition influences their structure,functioning, and integrity. This will enable you to better appreciate how various nutrients
in your diet can help promote the health of your cells, and therefore the health of your
overall being.
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Why are healthy foods so good for my cells?
As you can see by the previous discussions, supporting healthy cells involves a variety of
vitamins and minerals, as well as other dietary components. Providing all these nutrients
to your cells means eating whole foods since they contain the fullest complement of thesenutrients. One of the most comprehensive food sources for nutrients that support healthy
cells is whole grains.
A whole grain, such as a wheat grain, contains three main parts: the germ, or sproutingpart of the grain; the endosperm, which contains the starch (calories) to support the youngsprout during its early stages; and the bran, which is the protective layer encasing the
sprout and its endosperm. In a whole grain food, all three parts of the grain are present; in
a refined food product, like white bread, the germ and bran are removed, and only the
endosperm is used.
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Each of the parts of the grain has different purposes, and therefore a different
complement of nutrients. The germ, is rich in micronutrients to support the young sprout.
It contains a high level of the vitamin E family of micronutrients, the tocopherols, and
several B-vitamins. A representation of the amount of macronutrients and B-vitamins in agrain of wheat is shown below:
Bran Germ Endosperm
Amount of kernel (size) 14.5% 2.5% 83%
Protein 19% 8% 70-75%
Fiber 85% 15% 0%
Fats 15% 65% 20%
Vitamin B1 (thiamin) 33% 64% 3%
Vitamin B2 (riboflavin) 42% 26% 32%Vitamin B3 (niacin) 86% 2% 12%
Vitamin B5 (pantothenic acid) 50% 7% 43%
Vitamin B6 (pyridoxine) 73% 21% 6%
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The endosperm, although it is the largest part of the grain, contains the fewest
micronutrients for its size because its purpose is simply to provide starch (sugar) caloriesfor the young sprout. The protective bran contains a host of micronutrients to protect the
young sprout from damage by sun, which can cause free radical formation, as well as
other environmental damage. These same compounds protect our cells from damage,
which is one reason why the bran is such a healthy food source for us. The bran alsocontains over 60% of the minerals in grains, including magnesium, phosphorus,
potassium, iron, copper and manganese, all of which are necessary to support healthycells. It's easy to see why whole grains comprehensively protect and support healthy
cells, whereas processed grain products, such as white bread and cereals made from
refined grains, provide little protection from damage.
Your cells need a full spectrum of vitamins, especially the B-vitamins, to support energy
production and keep the level of offshoot free radicals at a minimum. Your cells alsoneed healthy fats (like the omega-3 fatty acids) and a good source of proteins to support
healthy, protective membranes. And, your cells need a high intake of antioxidants, like
the vitamin E family compounds found in the germ of whole grains, vitamin C found incitrus foods, and the carotenoids from vegetables to protect against free radical damage to
your DNA, which can cause mutations. A range of other phytonutrients can also act asantioxidants and help protect your cells and DNA from free radicals; these include
anthocyanidins from fruits like grapes and strawberries, and catechins found in green teaand fruits like grapes.
Without this range of nutrients and phytonutrients, the membranes in your cells can
become brittle, develop holes (become leaky), not be able to function properly, and not
be protective for your cell's DNA and energy producing machinery. Once unprotected,
your DNA can develop mutations which can cause the cell to be unable to function, oreven to become malignant (cancerous). Damage to your energy producing machinery can
decrease energy production and lead to an increase in generation of free radicals, causing
more damage and destroying your cell's ability to function entirely.
Nutrition and the cellular membrane
The envelope that encapsulates the cell is referred to as the cellular membrane. The cell
membrane serves as the structural boundary that encloses each of your cells and keeps
their internal machinery (like the energy producing reactions) safe, so they can function
properly. It also serves as a semi-permeable filter through which nutrients can enter andwastes can be excreted, and it allows your cells to communicate with each other, enabling
the orchestration of all of your body's physiological functions.
Fats constitute the boundaries of your cells
You cellular membrane is primarily composed of fats. It's like a droplet of oil within your
water-based bloodstream and tissue fluids. The fats, being non-water soluble, form abarrier that gives your cells their boundaries and structure. The main function of the fats
in your cell's membrane is to create shape and structural stability. Many of the fats that
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compose the membrane are known as phospholipids, which are a combination of fatty
acids, a carbon backbone to which they are attached called glyercol, and phosphate.
Proteins in your cell membranes are important for many cellfunctions
Proteins are also a major component of your cells. Outside of your cells, proteins
constitute bone and soft tissue and help these structures to maintain their shape. Because
they can be made into many different shapes and sizes, and they also constitute digestive
enzymes, the antibodies in your blood, and serve many other functions. Proteins havemany functions inside your cells as well. They perform all of the enzyme functions for
energy production; they provide for repair of DNA when it is damaged; and, together
with fats, they maintain the integrity of your cell's membrane. Proteins are located in yourcell membrane, within the cell itself, and around your cells.
The proteins that compose the cell membrane serve a variety of important purposes, such
as communication between your cells, and providing sites of attachment, so your cellscan connect with the structures around and stay where they should. For example, bone
cells attach to the bone matrix through proteins on their cell membranes, and liver cellsstay in the liver by attaching to the liver tissue (matrix) through specific attachment
proteins in their cell membranes. Cancer cells often have changes in these attachment
proteins on their membranes, altering their ability to "stick" or stay where they should,which allows them instead to move around the body. So, the proteins in your cell
membrane are important not just for the functioning within the individual cell, but also
for the health of your whole body.
Your cells must constantly communicate with each other, taking in nutrients from your
bloodstream, and excreting wastes. Your cells do this by having proteins that respond tosignals from your body stuck into each their membranes. These proteins acts as channels
that can be opened or closed when your cell gets a signal to do so, or as information
transporters, like a telegraph line across your membrane, to communicate what's going on
outside or inside neighboring cells. This communication is vital for your ability tofunction as a whole body with all your cells working together.
As an example, think about when you eat a meal. The sugar (glucose) is released and
taken into your body through the digestion process, during which it enters your
bloodstream. Your body responds to the glucose in your blood by secreting insulin fromyour pancreas into your bloodstream. When the insulin gets to one of your cells that
needs glucose, it attaches to a protein (receptor) on the cell's surface, which then
activates, or opens, a gate in the cell to let the glucose enter that cell. This glucose is then
either used by the cell to produce energy or is stored for future energy production.
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Nutrients in the Food You Eat Can Promote Healthy Cell Membranes
Research has shown the nutrients you take in through your food can have a major
influence on the health of your cells' membranes. In particular, the fats you eat have a
direct effect on your cells because they become your cell membranes. Unsaturated fats,
like the omega-3 fatty acids found in fish and nuts, are needed for your cell membranes tohave the correct shape and ability to communicate. When you eat saturated fats, or trans-
fatty acids, these fats also become part of your cell membranes, but they are more rigid
and don't function like unsaturated fats. Research studies of cells in a culture dish, inwhich they can be seen under a microscope, show that saturated and trans-fats in the cell
membrane make the cells less able to communicate and respond to signals; it's like the
cell membranes become brittle.
Eating healthy levels of unsaturated fats, especially the omega-3 fatty acids, and avoiding
trans-fats and saturated fats is one way to support healthy cell membranes. Two otherdietary compounds, which are also components of your cell membranes and support
healthy cell functioning, are inositol and choline. Inositol, which helps transport signalsacross the membranes of your cells, is found in the bran of grains, like wheat bran orbrown rice. Studies have shown an association between higher intakes of inositol and
lower risk of cancers, like colon cancer, which may be due to inositol's role in supporting
healthy cell membranes. Choline is necessary to make the phospholipids, the form oflipid in your cell membranes, and serves many other functions in your body. Choline is
present in high amounts in the yolk of eggs.
Cereals, grains, vegetables and fruits also contain many molecules that help protect the
fats in your cell membranes from damage. These protective nutrients include the vitamin
E family of molecules, called the tocopherols, which are found in highest levels in the
oils in grains, e.g., wheat germ oil; carotenoids like beta-carotene in carrots, and lycopenein tomatoes; vitamin C from citrus fruits. And, because your cells frequently use proteins
as messenger molecules in their communications, the quality of the protein you eat is also
important in supporting healthy cell membranes.
Nutrition and your DNA
The cell membrane surrounding your cells is not the only lipid membrane in your body.
Within each of your cells is a smaller spherical nuclear membrane within which yourDNA is encased. In this way, your cell separates the DNA from the rest of your cell's
activities, like energy production and the generation (synthesis) of proteins, which are
performed in the cytoplasm. The nucleus maintains your genetic integrity and serves asthe storehouse of your most personal information, the blueprint from which all of your
body's proteins, those that make up your tissues, organs and chemical messengers, are
designed - your DNA.
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DNA is composed of nucleotides that are made of nitrogen-containing compounds
attached to sugar molecules and phosphate. They are arranged in strands in a helixformation, unwinding to create a small intermediate messenger molecule, called RNA,
which transports the information from the DNA, through the nuclear membrane, to the
cytoplasm where it can be read. From the instructions provided by RNA, new proteins are
synthesized. Specific areas of DNA that provide the code for individual proteins areknown as genes, and genes are arranged in structures called chromosomes.
Your DNA never leaves the nucleus, and therefore the nuclear membrane is very
important in protecting your DNA. Unfortunately, your DNA can easily become
damaged by a host of different factors. Damaging toxins, especially ones that are lipid(fat) soluble, as are many pesticides, can get across both the cell membrane and the
nuclear membrane. When they do, they can attach to the DNA, causing it to lose its shape
or to break a strand. Damage can also occur from compounds called reactive oxygenspecies (ROS), a type of free radical, which are toxic by-products of altered or unhealthy
energy production within your cell. DNA damage of this type is called a mutation.
Mutations can lead to altering the cell's programming, sometimes in ways that convert ahealthy cell to a cancerous cell.
It is vital to protect the integrity of your DNA. When their helix strands break and theirstructure becomes compromised, not only are you unable to make the correct types and
amounts of proteins necessary for the proper functioning of your body, but these
mutations can lead to cancer. Supporting healthy membranes by eating foods that provideunsaturated fats and avoiding those with saturated and trans-fatty acids is one way to
protect your DNA. Eating organically grown foods is another way to protect your DNA
since by eating organic, you minimize your exposure to pesticide residues in food.
Minimizing the use of pesticides not only agriculturally, but also on our lawns andflowerbeds, and supporting businesses that do not use toxic environmental compounds is
another way to protect your DNA from damage.
Maintaining adequate dietary levels of protein, inositol, choline, the antioxidant vitamins
such as vitamins E and C, and the carotenoids is also important for the health of your
DNA, as well as for supporting healthy energy production by decreasing the amount ofdamaging free radicals inside your cells (discussed below). Nutritional support for
healthy DNA also includes adequate dietary intake of folate and vitamin B12, since these
micronutrients are involved with DNA replication and repair. Folate is found in highlevels in green vegetables, grains and eggs, and vitamin B12 can be obtained from eggs,
dairy, meat and fish.
Nutrition and energy production: the mitochondria
The cell membrane encloses your cells like your skin encloses your body and, in the same
way that your body has tissues and organs within it to support your overall function, eachof your cells has its own miniaturized version of tissues and organs. The miniaturized
organs are called organelles, and they carry out much of the day-to-day functions in your
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cell. Some of the most important organelles in your cells are the energy-producing
powerhouses, called the mitochondria.
The mitochondria are the place where your cells produce the energy they need from thenutrients in the food you eat. Each of your cells has several hundred to over two thousand
mitochondria inside of them, depending on their need for energy. For instance, heart cellsand the cells in your skeletal muscle, which have very high energy demands to supportthe constant movements within your body, have up to 40% of their space taken up by
mitochondria. All together, your body has over one quadrillion mitochondria that are
constantly producing energy.
How Mitochondria produce energy
Mitochondria use oxygen and the nutrients from the food you eat to produce energy.
Most of the energy produced by your mitochondria comes from breakdown of glucose or
fat from your diet. Since the mitochondria produce the energy used by other parts of yourcells and throughout your body, they must have some way to transport this energy. They
do this using a molecule called adenosine triphosphate, or ATP. ATP is like an energy
currency in your body: it can be produced in one part of the cell and transported to
another place where it is "spent" for energy.
ATP transports energy through a high-energy phosphate that is removed at the site whereits energy is used. When ATP gives up, or "spends," its energy, such as when your
muscles need energy for movement, this high-energy phosphate is stripped off the ATP,
and it becomes adenosine diphosphate, or ADP. ADP is then transported back to yourmitochondria, where it can have another high-energy phosphate put on it to form ATP
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again, and therefore -- like an energy shuttle moving the energy back and forth - it is used
and reused to transport energy.
On an average day in which you are not doing anything particularly strenuous, you willuse the equivalent of roughly half of what you weigh in ATP, about 40 kilograms.
Approximately 90% of the oxygen you breathe will be used by your mitochondria toproduce this energy. Since the ATP is recycled to ADP and then converted back to ATPto transport more energy, you don't gain or lose weight in this energy generation process.
The production of energy uses a multitude of nutrients, as well as many other molecules
from food. Let's take a closer look at the chemical reactions involved in energy
production and where these nutrients function during the production of ATP.
What nutrients do mitochondria need?
The attachment of the high-energy phosphate to ADP to form ATP is a complex process -
- not surprising, since energy is the basis for everything that happens in your body and is
what drives life at its most basic level. Mitochondria are like cells within your cells; theyhave a membrane made of fats and proteins like your cell's membrane. In contrast to yourcells' outer membrane, however, each mitochondrion has two membranes, an inner and
an outer membrane. Its inner membrane is composed of up to 75% protein, much more
than any other membrane in your cell. These proteins are part of the electron transportchain (ETC) and are the key players in generating ATP.
The food you eat must first be prepared for the ETC. To do that, your body takes the
glucose or fat molecule and breaks it down to smaller units of two carbons. These two-
carbon units are then stripped of some of the energy units, called electrons, and broken
down to carbon dioxide, which is transported out of the mitochondria as a waste product.A small amount of energy is generated during this process, which is called the Kreb's
cycle. The main role of the Kreb's cycle, however, is to strip electrons from the glucose
and fats for energy production through the ETC, which will generate the most energy.The Kreb's cycle uses a multitude of vitamins and minerals, in particular the B-vitamins,
vitamin B1, B2, B3, B5, and B6; and, this is one reason the B-vitamins are considered the
energy vitamins.
Your mitochondria uses molecules made from vitamins B2 and B3 to transfer the
electrons from the Kreb's cycle to the ETC, since electrons left unprotected are damagingto your cell's components. The ETC moves, or passes these electrons down through a
chain of proteins, almost like an electron river in which the proteins are the river banks.
The electrons are deposited at the end of the protein chain on the inside of the double
membrane in the mitochondria, which creates an electron gradient, like a dam reservoir atthe end of a river. The ETC uses five enzyme complexes in its membrane to create this
electron reservoir, and also burns oxygen as part of this process. At the end of the ETC is
the energy dam, or gate that, when opened, allows the electrons to flow through and, likea dam, transfers the energy to create ATP. Included in the middle of the ETC is the
nutrient Coenzyme Q10, which is extremely important in the electron transport and
membrane protection. The ETC is also composed of proteins that require iron and sulfur,
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nutrients you must also obtain from the foods you eat. Iron is present in whole grains, and
good food sources of sulfur are the cruciferous vegetables, like broccoli.
Maintaining the structural integrity of your mitochondria is inherently important to youroverall health and well-being. If tissues and organs, especially those that have higher
energy requirements like the muscle, heart and brain, do not receive adequate supplies ofenergy, they cannot function properly. Consequently, mitochondrial dysfunction isconsidered one of the major underlying factors in unhealthy aging and fatigue.
Mitochondrial dysfunction is also a major factor in many chronic degenerative diseases,
such as congestive heart failure, diabetes mellitus and Parkinson's disease. Along with the
inability to produce energy, when damaged, mitochondria can also produce damaging by-products, such as reactive oxygen species, a type of free radical species that can destroy
DNA, protein, and fats, promoting further damage.
Nutritional support for healthy energy production includes supporting healthy
membranes. In addition, since B-vitamins are so important, adequate intake of vitamins
B1, B2, B3, B5 and B6 is extremely important to support energy metabolism. Goodsources of these vitamins include whole grains, since the B vitamins are concentrated in
the bran of grains. Whole grains are an excellent source of the entire complement of
energy-related B-vitamins. Wheat germ is one of the highest sources of tocopherols, thefamily of vitamin E micronutrients, and brown rice contains oryzanol and ferulic acid,
known to be effective antioxidants and health-promoting compounds.
Reactive Oxygen Species (ROS)
We depend on our oxygen-rich world for survival. Mitochondrial energy production
requires oxygen to convert fuel molecules to carbon dioxide. Paradoxically, oxygen is
such a powerful reactant that it can disrupt cellular function and impair metabolismthrough the production of reactive oxygen molecules known as Reactive Oxygen Species.Research shows that these molecules cause cumulative oxidative damage which is
associated with many degenerative conditions, including cancer, atherosclerosis,
cataracts, inflammation and autoimmune disease, lung disease, neurologic disorders,aging, and cell death. Proper nutrition plays a critical role in neutralizing them damaging
chemicals and protecting cellular health.
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What are damaging Reactive Oxygen Species (ROS) such as FreeRadicals?
While it's not surprising that something as important as the generation of energy requiresso many nutrients, it is a little surprising that the production of energy can also result in
the offshoot production of dangerous molecules with potential to damage your cells.During the production of energy, about 2% of oxygen escapes in the form of reactiveoxygen species (ROS) called free radicals. Free radicals are oxidants, which are very
reactive molecules that bind to and break DNA chains, directly causing mutations. They
can also bind to and destroy proteins and fats in cell membranes. Under normalconditions, in which you are in good health, have low toxin exposure, and are eating a
nutritious diet, your cells can protect against these ROS free radicals. With poor nutrition,
or in the presence of toxins that inhibit or damage the ETC causing inadequate energy
production, the amount of ROS free radicals generated in your cells exceeds the cells'ability to protect themselves against damage.
When these damaging by-products are not kept in check, such as when key nutrients aremissing from your diet, they can bind and destroy DNA, proteins, and the fats in your
cell's membranes. Over the past four decades, research has been continually showing that
these damaging free radical by-products of energy production cause many of thefundamental alterations seen in aging and in chronic degenerative disease. Excess free
radicals results in increased risk not only of premature aging and chronic degenerative
diseases such as osteoarthritis, cardiovascular disease, and diabetes, but also of cancer.Research has also shown the diet can significantly influence how much damage is
produced by free radicals.
Research has shown that diet can support healthy cellular energy production, DNA and
membranes, and when the diet is deficient, these structures and functions become
compromised. Pollution and other toxins also result in increasing free radicals in yourbody, which can further damage your cells' membranes and cause mutations in your cell's
DNA. Furthermore, excess free radicals can also inhibit and even destroy the energy
production machinery in the mitochondria, resulting in fatigue and a higher risk ofchronic diseases. Poor nutrition, such as low intakes of the healthy omega-3 fatty acids
and high intake of saturated fats may result in brittle, broken (leaky) cell membranes that
can't function appropriately. Research studies have shown an association between ahigher level of DNA mutations and low levels of protective antioxidants. Therefore,
inadequate intake of protective antioxidants in food, such as catechins and anthocyanidinsin green tea and fruits; vitamin C in citrus foods; vitamin E in grain germs, whole grain
oils, and legumes, and carotenoids may result in a higher level of DNA mutation,predisposing you to conditions like cancer.
How does my cell protect against damaging Reactive Oxygen Species(ROS) such as Free Radicals?
The protective mechanisms in your cell include enzymes that disable the free radicals,
such as superoxide dismutase, and glutathione peroxidase. These enzymes require
nutrients like the minerals manganese, selenium, and copper, which are present in whole
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grains. Glutathione is a very important molecule that can destroy free radicals, and it can
be obtained directly from the diet, or can be made in your body from nutrients in the dietlike the amino acid glycine, and the sulfur-containing amino acid cysteine, which are
present in a variety of foods, such as broccoli, garlic and cauliflower. The enzymes
involved in energy metabolism also require minerals, like iron, magnesium, copper,
selenium, and manganese, which can be obtained from whole foods and vegetables.
Antioxidants are dietary compounds that directly bind to and destroy (quench) free
radicals that are oxidants. Much research has shown that green tea is protective against
many types of cancer, and the active ingredients in green tea that play this protective role
are the catechins, which are antioxidants. Research supports that these food ingredientsprotect against cancer and other damage in the cell by their antioxidant activities.
Vegetables and fruits contain a number of compounds like this, called flavonoids, which
can act directly as antioxidants and quench the ROS free radicals. This is thought to bewhy higher consumption of fruits and vegetables is associated with lower risk of a host of
diseases, including cancers and many chronic degenerative diseases. Among their
protective actions, micronutrients like vitamin C, the tocopherols (which include vitaminE), and the carotenoids (including beta-carotene, lutein and lycopene) function as
antioxidants to protect your cells from damage.
What Can I Do to Support Healthy Cellular Nutrition?
Food provides your cells with the nutrients that serve as their building blocks and protect
your cell's important functions like energy production. By understanding how food and
nutrients affect the health of your cells, you not only know what foods are beneficial, but
how and why a diet that features nutrient-rich, whole and organically grown foods canpromote your optimal health.
Eat foods that nutritionally support your cell's membranes. Dietaryproteins, after being broken down into amino acids and thenresynthesized into new proteins, replace protein-containingcomponents in the cellular membrane that have become worn out.Certain amino acids are also used to manufacture the signalingchemicals, such as hormones, that are integral to cell-to-cellcommunication. Good dietary sources of protein include fish,(preferably wild-caught, cold water fish, since they are also anexcellent source of beneficial omega 3 fatty acids), organic eggs,legumes, grains, nuts and seeds, and vegetables.
A significant percentage of the essential fatty acids in phospholipids iscomprised of omega-3 essential fatty acids. For example, over 35% ofphospholipids in the brain and 60% in the eye's photoreceptors featurethe omega-3 fatty acid, docosahexanoic acid (DHA). Therefore,providing the body with adequate levels of these important nutrientscan help to ensure proper membrane structure. Good dietary sourcesof omega-3 essential fatty acids include fish, in particular wild-caughttuna and salmon.
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Inositol is a component of membrane phospholipids that are involvedin various functions including cellular signaling. Increases in dietaryinositol and choline have been found to significantly influence theconcentration of membrane phospholipids and support healthymembranes. Good dietary sources of inositol include whole grains;choline is also present in high amounts in egg yolks.
Provide your body with foods rich in antioxidants. The vitamin Efamily, the tocopherols, contains powerful antioxidants that are able toprotect both the lipid and protein components in your cell membranesfrom damage caused by free radicals and other oxidative compounds.Research has suggested that through their powerful antioxidantactivity, the tocopherols may be able to protect DNA from the damagecaused by oxidative stress. Recent research has focused upon vitaminE's ability to shield DNA from the damage caused by free radicalsgenerated by cigarette smoking. Smokers with higher levels of
chromosomal damage have been found to have lower levels of
circulating vitamin E. The antioxidant vitamin E can also protect themitochondria from the effects of the free radicals produced during ATPmanufacture. In addition, supplemental vitamin E seems to supporttissue retention of supplemental coenzyme Q10, a critical nutrient forenergy production. Good dietary sources of the vitamin E familyinclude wheat germ and wheat germ oil, as well as oils from othergrains and legumes, like soy oil.
Vitamin C is critical to cellular membrane health since it plays anintegral role in recycling vitamin E back to its active form. Intracellularvitamin C has been found to protect the DNA of many cells, including
white blood cells and the eye's lens, from oxidative damage caused byfree radicals and ultraviolet radiation. By regenerating vitamin E backto its active form, vitamin C also plays a role in supporting geneticintegrity and as discussed above, in protecting the mitochondria frompotential damage by reactive oxygen species, like free radicals.Excellent dietary sources of vitamin C include chili peppers, parsley,broccoli, bell pepper, strawberries, oranges, lemon juice, papaya,cauliflower, kale, mustard greens, and Brussels sprouts.
Research on animals suggests that lipoic acid supplementationincreases mitochondrial membrane function and metabolic activity andreduces the potential for oxidative damage. In addition, lipoic acidfunctions directly as an antioxidant and serves as a cofactor formaintaining the active states of coenzyme Q10 and vitamin E, both ofwhich are important to the integrity of the mitochondria. Dietarysources of lipoic acid include potatoes, carrots, beets and and kohlrabi.Although not recommended since it is also loaded with cholesterol, redmeat also contains alpha-lipoic acid.
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The amino acid cysteine is a precursor for glutathione peroxidase, apowerful antioxidant that helps protect the mitochondria fromoxidative damage. The mineral selenium serves to activate theformation of this important antioxidant. Dietary sources of cysteineinclude legumes, whole grains, and sesame seeds. Excellent dietarysources of selenium include mushrooms, shrimp, salmon, snapper, andcalf's liver.
Provide key nutrients for mitochondrial support and energy production.Vitamin B3 (Niacin), serves as a precursor to NAD+, a compound thatis important in the electron transport for energy production, andinhibits DNA strands from rupturing. Supplementation of nicotinic acid(a form of niacin) has been found to reduce DNA damage in humanwhite blood cells. Excellent sources of B3 include tuna andmushrooms. Very good sources include asparagus, halibut, chicken,salmon and venison.
Coenzyme Q10 serves as both a component of the ETC as well as amitochondrial antioxidant. Supplementation of Coenzyme Q10 inhumans and animals has been shown to beneficially affect theefficiency of mitochondrial energy production and to protectmitochondrial DNA from free radical damage. Good dietary sources ofCoenzyme Q10 include oils from nuts, fish and meat.
Support healthy DNA. Folic acid is critical to our genetic integrity sincea deficiency of this nutrient can cause the incorporation of an incorrectnucleotide into DNA that will cause the strand to break. In addition,
folic acid plays an important role in the process of methylation, which
is necessary for proper genetic expression. In addition to folic acid,vitamin B6 and vitamin B12 are also involved in methylation reactionsthat are critical for maintaining proper genetic expression. Deficienciesof these vitamins are related to increased homocysteine levels thathave been found to have a negative effect on cellular methylation.Excellent dietary sources of folate include spinach, parsley, broccoli,beets, turnip greens, asparagus, romaine lettuce, calf's liver, andlentils. Excellent dietary sources of B6 include bell peppers, turnipgreens, and spinach. Excellent dietary sources of B12 include calf'sliver and snapper.
Many of the enzymes that are involved in the repair and replication ofDNA have zinc as a component. Zinc supplementation has been foundto prevent radiation-induced DNA strand breakage. Very good sourcesof zinc include: calf's liver, spinach, and mushrooms. Very goodsources include: beef, lamb, asparagus and summer squash.
Reduce intake of foods to which you are allergic or intolerant. Certainpeople have allergenic and hypersensitivity reactions to specific foods.These reactions, which involve an array of different immune system
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messengers, can disrupt the communication process both within andbetween cells. For people who are sensitive to certain foods, followinga low-allergen diet may be beneficial to cellular health.
Eat organically grown foods when you can! Eating organically grownfoods can help protect cellular membranes since certain agriculturalchemicals may damage the structure and function of the cellularmembrane. The insecticide endosulfan and the herbicide paraquathave been shown to oxidize lipid molecules and therefore can damagethe phospholipid components of the cellular membrane. In animalstudies, pesticides such as chlorpyrifos, endrin and fenthion have beenshown to over stimulate enzymes involved in chemical signaling,causing an imbalance that has been linked to conditions in whichinflammation is a significant contributing factor, such asatherosclerosis and psoriasis.
Eating organically grown foods also minimizes the degradation of DNA
and may help to better sustain health. Recent test tube and animal
research suggests that certain agricultural chemicals used in theconventional method of growing food may have the ability to causegenetic mutations that can lead to the development of cancer. Oneexample is the chemicalpentachlorophenol (PCP), which has beenfound to be able to cause DNA fragmentation in animals.
Several of these agricultural chemicals used in the conventionalgrowing of foods have also been shown to have a negative effect uponmitochondrial function. These chemicals include paraquat, parathion,dinoseb and 2,4-D, all of which have been found to affect themitochondria and cellular energy production in a variety of ways
including increasing membrane permeability (which exposes themitochondria to damaging free radicals), and inhibiting the proteinthat creates ATP.
Eat additive-free foods. Some of the food additives that are legallyallowed in food processing in the United States have been identified aspotentially able to damage genetic material. These include benzoylperoxide, sodium bisulfite, butylated hydrotoluene (BHT) and butylatedhydroanisole (BHA).