Enzymes and Longevity

[Guest guest]

Enzymes and Longevity

JoAnn Guest

Apr 11, 2006 16:54 PDT

 

 

Enzymes and Longevity

 

In an exclusive interview, food enzyme researcher Dr. Edward Howell

tells why he believes:

 

" Enzymes may be the key factor in preventing chronic disease and

extending the human lifespan. "

http://www.living-foods.com/articles/enzymes.html

 

Dr. Edward Howell was born in Chicago in 1898. He is the holder of a

limited medical license from the State of Illinois.

 

The holder of a limited practice license is required to pass the

same

medical examination as a medical doctor. Only surgery, obstetrics

and

materia medica are excluded.

 

After obtaining his license, Dr. Howell joined the professional

staff of

the Lindlahr Sanitorium, where he remained for six years. In 1930,

he

established a private facility for the treatment of chronic ailments

by

nutritional and physical methods.

 

Until he retired in 1970, Dr. Howell was busy in private practice

three

days each week. The balance of his time he devoted to various kinds

of

research.

 

Dr. Howell is the first researcher to recognize the importance of

the

enzymes in food to human nutrition. In 1946, he wrote the book, " The

Status of Food Enzymes in Digestion and Metabolism. " Dr. Howell's

forthcoming book is entitled, " Enzyme Diet. "

 

This book contains the reference and source materials for the enzyme

theories which Dr. Howell has collectively called, " The Food Enzyme

Concept. " The manuscript for " Enzyme Diet " reviews the scientific

literature through 1973. 1t is approximately 160,000 words long and

contains 47 tables and 695 references to the world's scientific

literature.

 

In this interview, Dr. Howell tells: What enzymes are, what they do

in

our bodies, why he believes a state of enzyme deficiency stress

exists

in most people, and finally, what he believes you can do about it.

 

" Neither vitamins, minerals or hormones can do any work -- without

enzymes. "

 

HDN: What are enzymes?

 

HOWELL: Enzymes are substances which make life possible. They are

needed

for every chemical reaction in that occurs in our body. Without

enzymes,

no activity at all would take place. Neither vitamins, minerals, or

hormones can do any work -- without enzymes.

 

Think of it this way: Enzymes are the " labor force " that builds your

body just like construction workers are the labor force that builds

your

house. You may have all the necessary building materials and lumber,

but

to build a house you need workers, which represent the vital life

element.

 

Similarly, you may have all the nutrients -- vitamins, proteins,

minerals, etc., for your body, but you still need the enzymes -- the

life element -- to keep the body alive and well.

 

HDN: Are enzymes then just like chemical catalysts which speed up

various reactions?

 

HOWELL: No. Enzymes are much more than catalysts.

 

Catalysts are only inert substances. They possess none of the life

energy we find in enzymes. For instance, enzymes give off a kind of

radiation when they work. This is not true of catalysts.

 

In addition, although enzymes contain proteins -- and some contain

vitamins -- the activity factor in enzymes has never been

synthesized.

 

Moreover, there is no combination of proteins or any combination of

amino acids or any other substance which will give enzyme activity.

There are proteins present in enzymes. However, they serve only as

carriers of the enzyme activity factors.

 

Therefore, we can say that enzymes consist of protein carriers

charged

with energy factors just as a battery consists of metallic plates

charged with electrical energy.

 

HDN: Where do the enzymes in our bodies come from?

 

HOWELL: It seems that we inherit a certain enzyme potential at

birth.

 

This limited supply of activity factors or life force must last us a

lifetime. It's just as if you inhented a certain amount of money. If

the

movement is all one way -- all spending and no income -- you will

run

out of money.

 

Likewise, the faster you use up your supply of enzyme activity, the

quicker you will run out. Experiments at various universities have

shown

that, regardless of the species, the faster the metabolic rate, the

shorter the lifespan.

 

Other things being equal, you live as long as your body has enzyme

activity factors to make enzymes from. When it gets to the point

that

you can't make certain enzymes, then your life ends.

 

HDN: Do people do anything which causes them to waste their limited

enzyme supply?

 

HOWELL: Yes. Just about every single person eats a diet of mainly

cooked

foods. Keep in mind that whenever a food is boiled at 212 degrees,

the

enzymes in it are 100% destroyed.

 

If enzymes were in the food we eat, they would do some or even a

considerable part of the work of digestion by themselves. However,

when

you eat cooked, enzyme-free food, this forces the body itself to

make

the enzymes needed for digestion. This depletes the body's limited

enzyme capacity.

 

HDN: How serious is this strain on our enzyme " bank " caused by diets

of

mostly cooked food?

 

HOWELL: I believe it's one of the paramount causes of premature

aging

and early death. I also believe it's the underlying cause of almost

all

degenerative disease.

 

To begin with, if the body is overburdened to supply many enzymes to

the

saliva, gastric juice, pancreatic juice and intestinal juice, then

it

must curtail the production of enzymes for other purposes.

 

If this occurs, then how can the body also make enough enzymes to

run

the brain, heart, kidneys, lungs, muscles and other organs and

tissues?

 

This " stealing " of enzymes from other parts of the body to service

the

digestive tract sets up a competition for enzymes among the various

organ systems and tissues of the body.

 

The resulting metabolic dislocations may be the direct cause of

cancer,

coronary heart disease, diabetes, and many other chronic incurable

diseases.

 

This state of enzyme deficiency stress exists in the majority of

persons

on the civilized, enzyme-free diet.

 

HDN: Did human disease begin when man started cooking his food?

 

HOWELL: This is what the evidence indicates.

 

For example, the Neanderthal Man of 50,000 years ago used fire

extensively in his cooking. He lived in caves and ate mostly roasted

meat from the continuous fires which warmed the caves. These

statements

are documented by scientific evidence in my published and

unpublished

works.

 

From fossil evidences we know that the Neanderthal Man suffered

from

fully-developed cnppling arthritis.

 

It's possible that the Neanderthal Man also had diabetes or cancer

or

kidney disease and so forth. However, we'll never know since all

soft

tissues have disappeared without a trace.

 

Incidentally, another inhabitant of the caves was the cave bear.

This

creature protected the Neanderthal Man from the cave tiger, who also

wanted the protection of the cave to avoid the frigid weather. The

cave

bear, according to paleontologists, was a partially domesticated

animal

and most likely lived on the same roasted meat that the cave man

ate.

 

Like the cave man, the cave bear also suffered from chronic,

deforming

arthritis.

 

HDN: Isn't it possible that cold weather, not cooked food, was

responsible for the arthritis of the Neanderthal Man?

 

HOWELL: No, I don't think weather had much to do with it.

 

For example, consider the primitive Eskimo. He lived in an

environment

just as frigid as that of the Neanderthal Man. And yet, the Eskimo

never

suffered from arthntis and other chronic diseases.

 

However, the Eskimo ate large amounts of raw food. The meat he ate

was

only slightly heated and was raw in the center. Therefore, the

Eskimo

received a large quantity of food enzymes with every meal.

 

In fact, the word Eskimo itself comes from an Indian expression

which

means, " He who eats it raw. "

 

Incidentally, there is no tradition of medicine men among the Eskimo

people. But among groups like the North American Indian, who ate

cooked

food extensively, the medicine man had a prominent position in the

tribe.

 

HDN: What evidence is there that human beings suffer from food

enzyme

deficiency?

 

HOWELL: There's so much evidence that I can only briefly summanze a

small

 

fraction of it. Over the last 40 years, I have collected thousands

of

scientific documents to document my theories.

 

To begin with, human beings have the lowest levels of starch

digesting

enzymes in their blood of any creature. We also have the highest

level

of these enzymes in the urine, meaning that they are being used up

faster.

 

There's other evidence showing that these low enzyme levels are not

due

to a pecularity of our species. Instead, they are due to the large

amounts of cooked starch we eat.

 

Also, we know that decreased enzyme levels are found in a number of

chronic ailments, such as allergies, skin disease, and even serious

diseases like diabetes and cancer.

 

In addition, incriminating evidence indicates that cooked, enzyme-

free

diets contribute to a pathological over-enlargement of the pituitary

gland, which regulates the other glands. Furthermore, there is

research

showing that almost 100% of the people over 50 dying from accidental

causes were found to have defective pituitary glands.

 

Next, I believe that food enzyme deficiency is the cause of the

exaggerated maturation of today's children and teenagers. It is also

an

important cause of overweight in many children and adults.

 

Many animal experiments have shown that enzyme-deficient diets

produce a

much more rapid maturation than usual. Animals on cooked diets are

also

much heavier than their counterparts on raw diets .

 

Another piece of related evidence is that farmers use cooked

potatoes to

fatten pigs for market. The've found that pigs on cooked potatoes

fatten

faster and more economically than pigs on raw potatoes.

 

This evidence shows the great difference between cooked calories and

raw

calories. Indeed, from my work in a sanitarium many years ago, I've

found that it was impossible to get people fat on raw foods,

regardless

of the calorie intake.

 

Incidentally, another effect associated with food enzyme deficiency

is

that the size of the brain decreases. In addition, the thyroid

overenlarges, even in the presence of adequate iodine. This has been

shown in a number of species. Of course, you can't prove it on human

beings. The evidence, however, is very suggestive.

 

HDN: What else is there?

 

HOWELL: Next, consider that the human pancreas is burdened with

enzyme

production far in excess of any creature living on a raw food diet.

In

fact, in proportion to body weight, the human pancreas is more than

twice as heavy as that of a cow.

 

Human beings eat mainly cooked food, while cows eat raw grass.

 

Then, there is evidence that rats on a cooked diet have a pancreas

about

twice as heavy as rats on a raw diet.

 

Moreover, evidence shows that the human pancreas is one of the

heaviest

in the animal kingdom, when you adjust for total body weight.

 

This overenlargement of the human pancreas is just as dangerous --

probably even more so -- than an overlargement of the heart, the

thyroid

and so on. The

 

overproduction of enzymes in humans is a pathological adaption to a

diet

of enzyme-free foods.

 

The pancreas is not the only part of the body that oversecretes

enzymes

when the diet is cooked. In addition, there are the human salivary

glands, which produce enzymes to a degree never found in wild

animals on

their natural foods.

 

In fact, some animals on a raw diet do not have any enzymes at all

in

their saliva. The cow and sheep produce torrents of saliva with no

enzymes in it.

 

Dogs, for instance, also secrete no enzymes in their saliva when

they're

eating a raw diet. However, if you start giving them cooked starchy

food, their salivary glands will start producing starch-digesting

enzymes within 10 days.

 

In addition, there's more evidence that the enzymes in saliva

represent

a

 

pathological and not a normal situation. To begin with, salivary

enzymes

cannot digest raw starch. This is something I demonstrated in the

laboratory.

 

The enzymes in saliva will only attack a piece of starch once it's

cooked. Therefore, we see that the body will channel some of its

limited

enzyme producing capacity into saliva only if it has to.

 

Incidentally, there is some provocative animal research which I have

done in my own laboratory some years ago. If you'd like, I can

explain

it now for your readers.

 

HDN: Yes, please do.

 

HOWELL: I fed one group of rats a cooked diet and one group a raw

diet

and let them live out their lifespan to see which group would live

longer.

 

The first group got a combination of raw meat and various raw

vegetables

and grains. The second group got the same foods boiled and therefore

enzyme-free. I kept these rats until they died, which took about

three

years.

 

As the experiment came to a close, the results surprised me. It

turned

out that there was no great difference between the lifespans of the

two

groups. Later on, I discovered the reason.

 

It turned out that the rats on the cooked diet were still getting

enzymes, but from an unexpected source. They had been eating their

own

feces, which contained the enzymes excreted from their own bodies.

 

All feces, including those of human beings, contain the enzymes that

the

body has used. My rats had been recycling their own enzymes to use

them

over again. And that's why they lived as long as the rats on the raw

diet.

 

Incidentally, the practice of eating feces is almost universal among

today's laboratory animals. Although these animals receive

scientific

diets containing all known vitamins and minerals, the animals

instinctively know they need enzymes. Because of this, they eat

their

own feces.

 

In fact, the animals on these scientific diets develop most of the

chronic human degenerative diseases if they are allowed to live out

their lifespans. This shows that vitamins and minerals alone are not

sufficient for health.

 

HDN: How do you know that people would benefit from additional

enzyme

intake?

 

HOWELL: To me, the most impressive evidence that people need enzymes

is

what occurs as a result of therapeutic fasting. As you know, I spent

some years in a sanitarium working with patients on various fasting

programs.

 

When a person fasts, there is an immediate halt to the production of

digestive enzymes. The enzymes in saliva, gastric juice and

pancreatic

juice dwindle and become scarce. During fasting, the body's enzymes

are

free to work on repairing and removing diseased tissues.

 

Civilized people eat such large quantities of cooked foods that

their

enzyme systems are kept busy digesting food. As a result, the body

lacks

the enzymes needed to maintain the tissues in good health.

 

Most people who fast go through what is called a healing crisis. The

patients may feel nausea, vomiting and dizziness. What's happening

is

that the enzymes are working to change the unhealthy structure of

the

body. The enzymes attack pathological tissues and break down

undigested

and unprocessed substances; and these then get thrown off through

the

bowels, through vomiting, or via the skin.

 

HDN: When people get enzymes from food, aren't they destroyed by

stomach

acid and therefore of little or no value?

 

HOWELL: This is not true. Although most nutntionists claim that

enzymes

in food are destroyed in the stomach, they overlook two important

facts.

 

 

First of all, when you eat food, acid secretion is minimal for at

least

thirty minutes. As the food goes down the esophagus, it drops into

the

top portion of the stomach. This is called the cardiac section,

since

it's closer to the heart.

 

The rest of the stomach remains flat and closed while the cardiac

section opens up to accommodate the food. During the iime the food

sits

in the upper section, little acid or enzymes are secreted by the

body.

The enzymes in the food itself go about digesting the food. The more

of

this self-digestion that occurs, the less work the body has to do

later.

 

 

When this 30 to 45 minute period is over, the bottom section of the

stomach opens up and the body starts secreting acid and enzymes.

Even at

this point, the food enzymes are not inactivated until the acid

level

becomes prohibitive. You see, food enzymes can tolerate chemical

environments many times more acid than neutral.

 

HDN: Do animals also have a special section of the stomach where

food

digests itself?

 

HOWELL: Absolutely. In fact, some creatures have what I call a food

enzyme stomach.

 

There are the cheek pouches of monkeys and rodents, the crop of many

species of birds, and the first stomachs of whales, dolphins and

porpoises.

 

When birds, for instance, swallow seeds or grains, these grains lie

in

the crop for 8 to 12 hours. As they sit, they absorb moisture, swell

up

and begin to germinate. During germination, enzymes are formed which

do

the work of digesting the seeds and grains.

 

Whales, dolphins and porpoises have a first stomach which secretes

no

enzymes. Whales, for examples swallow large quantities of food

without

chewing it. The food simply decomposes and digests itself. In the

flesh

of the fish and other marine life the whale eats is an enzyme,

called

cathepsin, which breaks down the fish once it has died. In fact,

this

enzyme is present in almost all creatures.

 

After the whale's catch has liquefied itself, it passes through a

small

hole into the whale's second stomach.

 

It mystifies scientists how the whale's catch can get through that

small

hole into the second stomach. They have no idea that self-digestion

was

at work.

 

HDN: Most -- if not all of us, eat lots of cooked foods every day.

Can

we make up for this enzyme loss by eating raw foods in addition?

 

HOWELL: No. Cooked foods cause such a large drain on our enzyme

supply

that you can't make it up by eating raw foods.

 

In addition, vegetables and fruits are not concentrated sources of

enzymes. When produce ripens, enzymes are present to do the

ripening.

However, once the

 

ripening is finished, some of the enzymes leave and go back into the

stem and seeds.

 

For example, when companies want to get enzymes from papaya, a

tropical

fruit, they use the juice of unripe papaya. The ripe papaya itself

has

no great concentration of enzymes.

 

HDN: Are there any foods particularly high in enzymes?

 

HOWELL: Bananas, avocadoes and mangoes are good sources. In general,

foods having a higher calorie content are richer in enzymes.

 

HDN: Do you recommend all raw foods as sources of enzymes?

 

HOWELL: No. There are some foods, seeds and nuts, that contain what

are

called enzyme inhibitors.

 

These enzyme inhibitors are present for the protection of the seed.

Nature doesn't want the seed to germinate prematurely and lose its

life.

It wants to make sure that the seed is present in soil with

sufficient

moisture to grow and continue the species.

 

Therefore, when you eat raw seeds or raw nuts, you are swallowing

enzyme

inhibitors which will neutralize some of the enzymes your body

produces.

In fact, eating foods with enzyme inhibitors causes a swelling of

the

pancreas.

 

All nuts and seeds contain these inhibitors. Raw peanuts, for

example,

contain an especially large amount. Raw wheat germ is also one of

the

worst offenders. In addition, all peas, beans and lentils contain

some.

 

Potatoes, which are seeds, have enzyme inhibitors.

 

In eggs, which are also seeds, the inhibitor is contained mainly in

the

eggwhite.

 

As a general rule, enzyme inhibitors are confined to the seed

portions

of food. For instance, the eyes of potatoes. The inhibitors are not

present in the fleshy portions of fruits or in the leaves and stems

of

vegetables.

 

There are two ways to destroy enzyme inhibitors. The first is

cooking;

however, this also destroys the enzymes. The second way, which is

preferable, is sprouting. This destroys the enzyme inhibitors and

also

increases the enzyme content from a factor of 3 to 6.

 

Some foods, like soybeans, must be especially well heated to destroy

the

inhibitors. For example, many of the soy flours and powders on the

market were not heated enough to destroy the inhibitors.

 

There is one other way to neutralize enzyme inhibitors, but we'll

get to

it in just a minute.

 

HDN: You said that it's not possible to overcome the enzyme drain of

cooked foods just by eating other raw foods. What then can people

do?

 

HOWELL: The only solution is to take capsules of concentrated plant

enzymes.

 

In the absence of contraindications, you should take from l to 3

capsules per meal. Of course, if you are eating all raw foods, then

no

enzymes will be necessary at that meal.

 

The capsules should be opened and sprinkled on the food or chewed

with

the meal. This way, the enzymes can go to work immediately.

Incidentally, taking extra enzymes is the third way to neutralize

the

enzyme inhibitors in unsprouted seeds and nuts.

 

Concentrates of plant enzymes or fungus enzymes are better for

predigestion of food than tablets of pancreatic enzymes. This is

because

plant enzymes can work in the acidity of the stomach, whereas

pancreatic

enzymes only work best in the alkalinity of the small intestine.

 

If the enzyme tablet has an enteric coating, then it's not suitable,

since it will only release after it has passed the stomach. By this

time, it's too late for food predigestion. The body itself has

already

used its own enzymes to digest the food.

 

HDN: Would people benefit from taking enzymes, even if they have no

problem with digestion or if they eat mainly raw foods?

 

HOWELL: They probably would benefit. Our bodies use up enzymes in so

many

 

ways that it pays to maintain your enzyme bank, regardless of what

you

eat.

 

For example, enzymes are used up faster during certain illnesses,

during

extremely hot or cold weather, and during strenuous exercise.

 

Also, keep in mind that any enzymes that are taken are not wasted

since

they add to the enzyme pool of your body.

 

Furthermore, as we pass our prime, the amount of enzymes in our

bodies

and excreted in our sweat and urine continues to decline until we

die.

In fact, low enzyme levels are associated with old age and chronic

disease.

 

So far, there's not much hard evidence on whether taking additional

enzymes will extend the lifespan. However, we do know that

laboratory

rats that eat raw foods will live about 3 years. Rats that eat

enzymeless chow diets will live only 2 years. Thus, we see that

diets

deficient in enzymes cause a 30% reduction in lifespan.

 

If this held true for human beings, it may mean that people could

extend

their lifespans by 20 or more years -- just by maintaining proper

enzyme

levels.

 

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Editor's Note: Dr. Howell and his wife Evangeline can be offered as

examples of the benefits of taking enzymes. She looks about twenty

years

younger than her age. And Dr. Howell, though well over 70, feels as

alert and vital as 30 years ago. He still goes jogging frequently.

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© 1991 University of Natural Healing, Inc.

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JoAnn Guest

mrsjo-

www.geocities.com/mrsjoguest/Diets