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The
Whey to Weight Loss
by
Will Brink
Regular readers
of my work have come to expect articles about the power of whey
proteins to potentaily fight cancer and improve immunity among
its many benefits. The ability of whey to fight cancer, improve
glutathione levels and immunity, is well documented (readers interested
in brushing up on the effects of whey on cancer, immunity, etc,
can read previous articles by me at the LEF?s web site: www.lef.org
and www.BrinkZone.com).
Additional
research suggests possible medical uses for whey that are quite
unexpected and different from whey's traditional role as an immune
booster and anti-cancer functional food.
For example,
whey may be able to reduce stress and lower cortisol and increase
brain serotonin levels, improve liver function in those suffering
from certain forms of hepatitis, reduce blood pressure, as well
as other amazing recent discoveries, such as whey's possible effects
on weight loss, which is the focus of this article.
What is
whey?
When we talk
about whey we are actually referring to a complex milk-based ingredient
made up of protein, lactose, fat and minerals. Protein is the
best-known component of whey and is made up of many smaller protein
subfractions such as: Beta-lactoglobulin, alpha-lactalbumin, immunoglobulins
(IgGs), glycomacropeptides, bovine serum albumin (BSA) and minor
peptides such as lactoperoxidases, lysozyme and lactoferrin.
Each of the
subfractions found in whey has its own unique biological properties.
Modern filtering technology has improved dramatically in the past
decade, allowing companies to separate some of the highly bioactive
peptides - such as lactoferrin and lactoperoxidase - from whey.
Some of these
subfractions are only found in very minute amounts in cow's milk,
normally at less than one percent (e.g., lactoferrin, lactoperoxidase,
etc.) The medicinal properties of whey have been known for centuries.
For example,
an expression from Florence, Italy. Circa 1650, was "Chi vuol
viver sano e lesto beve scotta e cena presto" which translates
into English as "If you want to live a healthy and active life,
drink whey and dine early."
Another expression
from Italy regarding the benefits of whey (circa 1777) was "Allevato
con la scotta il dottore e in bancarotta." Which translates into
English "If everyone were raised on whey, doctors would be bankrupt."
Is whey
a weight loss functional food? A
few years ago, I might have said no. Now I am not so sure.
Although
there was a smattering of studies suggesting whey had certain
properties that might assist with weight loss, a number of recent
studies appear to further support the use of whey as a possible
weight loss supplement.
Most interesting
- at least to nerds like me - the effect appears to be not by
a single mechanism, but several.
This article
will briefly explore a few possible pathways by which whey may
assist the dieter.
"I'm hungry!"
Human hunger and appetite are regulated by a phenomenally complicated
set of overlapping feedback networks, involving a long list of
hormones, psychological factors as well as physiological factors,
all of which are still being elucidated. It's
a very intensive area of research right now, with various pharmaceutical
companies looking for that "magic bullet" weight loss breakthrough
they can bring to market.
One hormone
getting attention by researchers looking for possible solutions
to obesity is cholecystokinin (CCK).
Several decades
ago, researchers found CCK largely responsible for the feeling
of fullness or satiety experienced after a meal and partially
controls appetite, at least in the short term.
Cholecystokinin
(CCK) is a small peptide with multiple functions in both the central
nervous system and the periphery (via CCK-B and CCK-A receptors
respectively). Along with other hormones, such as pancreatic glucagon,
bombesin, glucagon-like peptide-1, amide (GLP-1), oxyntomodulin,
peptide YY (PYY) and pancreatic polypeptide (PP), CCK is released
by ingested food from the gastrointestinal tract and mediates
satiety after meals.
Such a list
would not be complete without at least making mention of what
many researchers consider the "master hormones" in this milieu,
which is insulin and leptin.
If that's
not confusing enough, release of these hormones depends on the
concentration and composition of the nutrients ingested. That
is, the type of nutrients (i.e., fat, protein, and carbohydrates)
eaten, the amount of each eaten, and composition of the meal,
all effect which hormones are released and in what amounts...
Needless
to say, it's a topic that gets real complicated real fast and
the exact roles of all the variables is far from fully understood
at this time, though huge strides have been made recently.
Whey's
effects on food intake
This (finally!) brings us to whey protein. Whey may have some
unique effects on food intake via its effects on CCK and other
pathways. Many studies have shown that protein is the most satiating
macro-nutrient.
However,
it also appears all proteins may not be created equal in this
respect.
For example,
two studies using human volunteers compared whey vs. casein (another
milk based protein) on appetite, CCK, and other hormones (Hall
WL, Millward DJ, Long SJ, Morgan LM.Casein and whey exert different
effects on plasma amino acid profiles, gastrointestinal hormone
secretion and appetite. Br J Nutr. 2003 Feb;89(2):239-48).
The first
study found that energy intake from a buffet meal ad libitum was
significantly less 90 minutes after a liquid meal containing whey,
compared with an equivalent amount of casein given 90 minutes
before the volunteers were allowed to eat all they wanted (ad
libitum) at the buffet.
In the second
study, the same whey preload led to a plasma CCK increase of 60
% ( in addition to large increases in glucagon-like peptide [GLP]-1
and glucose-dependent insulinotropic polypeptide) following the
whey preload compared with the casein.
Translated,
taking whey before people were allowed to eat all they wanted
(ad libitum) at a buffet showed a decrease in the amount of calories
they ate as well as substantial increases in CCK compared to casein.
Subjectively,
it was found there was greater satiety followed the whey meal
also.
The researchers
concluded: "These results implicate post-absorptive increases
in plasma amino acids together with both CCK and GLP-1 as potential
mediators of the increased satiety response to whey and emphasize
the importance of considering the impact of protein type on the
appetite response to a mixed meal."
Several animal
studies also find whey appears to have a pronounced effect on
CCK and or satiety over other protein sources.
It should
be noted however that not all studies have found the effect of
whey vs. other protein sources on food intake (Bowen
J, Noakes M, Clifton P, Jenkins A, Batterham M.Acute effect of
dietary proteins on appetite, energy intake and glycemic response
in overweight men. Asia Pac J Clin Nutr. 2004;13(Suppl):S64.).
It should
also be noted that although studies find protein to be the most
satiating of the macro-nutrients, certain protein sources (e.g.
egg whites) may actually increase appetite (Anderson
GH, Tecimer SN, Shah D, Zafar TA. Protein
source, quantity, and time of consumption determine the effect
of proteins on short-term food intake in young men. J Nutr. 2004
Nov;134(11):3011-5.), so
protein sources appear worth considering when looking to maximize
weight loss and suppress appetite.
How whey
achieves this effect is not fully understood, but research suggests
it's due to whey's high glycomacropeptide and alpha-lactalbumin
content, as well as its high solubility compared to other proteins,
and perhaps it's high percentage of branch chain amino acids (BCAA's).
Whey's
effects on bodyfat, insulin sensitivity, and fat burning
So we have some studies suggesting whey may have some unique effects
on hormones involved in satiety and or may reduce energy (calorie)
intake of subsequent meals, but do we have studies showing direct
effects of whey vs. other proteins on weight loss?
In animals
at least, whey has looked like a promising supplement for weight
loss.
Although
higher protein diets have been found to improve insulin sensitivity,
and may be superior for weight loss (with some debate!) than higher
carbohydrate lower protein diets, it's unclear if all proteins
have the same effects.
One study
compared whey to beef (Damien P. Belobrajdic,,
Graeme H. McIntosh, and Julie A. Owens. A High-Whey-Protein Diet
Reduces Body Weight Gain and Alters Insulin Sensitivity Relative
to Red Meat in Wistar Rats. J. Nutr. 134:1454-1458, June 2004)
and found whey reduced body weight and tissue lipid levels and
increased insulin sensitivity compared to red meat.
Rats were
fed a high-fat diet for nine weeks, then switched to a diet containing
either whey or beef for an additional six weeks. As has generally
been found in other studies, the move to a high dietary protein
reduced energy intake (due to the known satiating effects of protein
compared to carbs or fat), as well as reductions in visceral and
subcutaneous bodyfat.
However,
the rats getting the whey, there was a 40% reduction in plasma
insulin concentrations and increased insulin sensitivity compared
to the red meat.
Not surprisingly,
the researchers concluded "These findings support the conclusions
that a high-protein diet reduces energy intake and adiposity and
that whey protein is more effective than red meat in reducing
body weight gain and increasing insulin sensitivity."
Other studies
suggest taking whey before a workout is superior for preserving/gaining
lean body mass (LBM) and maintaining fat burning (beta oxidation)
during exercise over other foods taken prior to a workout.
The study
called "A preexercise lactalbumin-enriched whey protein meal preserves
lipid oxidation and decreases adiposity in rats" (Am
J Physiol Endocrinol Metab 283: E565-E572, 2002.) came
to some very interesting conclusions.
One thing
we have known a long time is the composition of the pre-exercise
meal will affect substrate utilization during exercise and thus
might affect long-term changes in body weight and composition.
That is,
depending on what you eat before you workout can dictate what
you use for energy (i.e. carbs, fats, and or proteins) which alters
what you burn (oxidize) for energy.
The researchers
took groups of rats and made the poor buggers exercise two hours
daily for over five weeks (talk about over-training!), either
in the fasted state or one hour after they ingested a meal enriched
with a simple sugar (glucose), whole milk protein or whey protein.
The results
were quite telling.
Compared
with fasting (no food), the glucose meal increased glucose oxidation
and decreased lipid oxidation during and after exercise. Translated,
they burned sugar over body fat for their energy source.
In contrast,
the whole milk protein and whey meals preserved lipid oxidation
and increased protein oxidation. Translated, fat burning was maintained
and they also used protein as a fuel source.
Not surprisingly,
the whey meal increased protein oxidation more than the whole
milk protein meal, most likely due to the fact that whey is considered
a "fast" protein that is absorbed rapidly due to it's high solubility.
As one would
expect, by the end of the five weeks, body weight was greater
in the glucose, whole milk protein and whey fed rats than in the
fasted ones. No shock there.
Here is where
it gets interesting:
In the group
getting the glucose or the whole milk protein, the increase in
weight was from bodyfat, but in the whey fed group, the increase
in weight was from an increase in muscle mass and a decrease in
bodyfat!
Only the
rats getting the whey before their workout increased muscle mass
and decreased their bodyfat.
The researchers
theorized this was due to whey's ability to rapidly deliver amino
acids during exercise.
Is this the
next big find in sports nutrition or those simply looking to preserve
muscle mass loss due to aging?
Hard to say
at this time being it was done in rats, but if it turns out to
be true in humans (and there is no reason people can't try it
now) it would indeed be a breakthrough in the quest to add muscle
and lose fat.
Effects
on serotonin, blood sugar regulation, and more!
Although the above would probably be the major mechanisms by which
whey could help the dieter, there are several secondary effects
of whey that may assist in weight loss.
For example,
whey's effects on serotonin levels.
Serotonin
is probably the most studied neurotransmitter since it has been
found to be involved in a wide range of psychological and biological
functions. Serotonin ( also called 5-hydroxytryptamine or 5-HT)
is involved with mood, anxiety, and appetite.
Elevated
levels of serotonin can cause relaxation and reduced anxiety.
Low serotonin levels are associated with low mood, increased anxiety
(hence the current popularity of the SSRI drugs such as Prozac
and others), and poor appetite control.
This is an
extremely abbreviated description of all the functions serotonin
performs in the human body - many of which have yet to be fully
elucidated - but a full explanation is beyond the scope of this
article.
Needless
to say, Increased brain serotonin levels are associated with an
improved ability of people to cope with stress, whereas a decline
in serotonin activity is associated with depression and anxiety.
Elevated
levels of serotonin in the body often result in the relief of
depression, as well as substantial reduction in pain sensitivity,
anxiety and stress.
It has also
been theorized that a diet-induced increase in tryptophan will
increase brain serotonin levels, while a diet designed for weight
loss (e.g., a diet that reduces calories) may lead to a reduction
of brain serotonin levels due to reduced substrate for production
and a reduction in carbohydrates.
Many people
on a reduced calorie intake in an attempt to lose weight find
they are often ill tempered and more anxious. Reductions in serotonin
may be partially to blame here.
One recent
study (The bovine protein alpha-lactalbumin increases
the plasma ratio of tryptophan to the other large neutral amino
acids, and in vulnerable subjects raises brain serotonin activity,
reduces cortisol concentration, and improves mood under stress.
Am J Clin Nutr 2000 Jun;71(6):1536-1544) examined whether
alpha-lactalbumin - a major sub fraction found in whey which has
an especially high tryptophan content - would increase plasma
tryptophan levels as well reduce depression and cortisol concentrations
in subjects under acute stress considered to be vulnerable to
stress.
The researchers
examined twenty-nine "highly stress-vulnerable subjects" and 29
"relatively stress-invulnerable" subjects using a double blind,
placebo-controlled study design.
The study
participants were exposed to experimental stress after eating
a diet enriched with either alpha-lactalbumin (found in whey)
or sodium-caseinate, another milk based protein.
They researchers
looked at: Diet-induced changes in the plasma tryptophan and its
ratio to other large neutral amino acids. Prolactin levels. Changes
in mood and pulse rate. Cortisol levels (which were assessed before
and after the stressor).
Amazingly,
the ratio of plasma tryptophan to the other amino acids tested
was 48% higher after the alpha-lactalbumin diet than after the
casein diet! This
was accompanied by a decrease in cortisol levels and higher prolactin
concentration.
Perhaps most
important and relevant to the average person reading this article,
they found "reduced depressive feelings" when test subjects were
put under stress.
They concluded
that the "Consumption of a dietary protein enriched in tryptophan
increased the plasma Trp-LNAA ratio and, in stress-vulnerable
subjects, improved coping ability, probably through alterations
in brain serotonin."
This effect
was not seen in the sodium-caseinate group.
If other
studies can confirm these findings, whey may turn out to be yet
another safe and effective supplement in the battle against depression
and stress, as well as reduced serotonin levels due to dieting.
Although
there is a long list of hormones involved in appetite regulation,
some of which have been mentioned above, serotonin appears to
be a key player in the game.
In general,
experiments find increased serotonin availability or activity
= reduced food consumption and decreased serotonin = increase
food consumption. If
whey can selectively increase serotonin levels above that of other
proteins, it could be very helpful to the dieter.
Other possible
advantages whey may confer to the dieter is improved blood sugar
regulation (Frid AH, Nilsson M, Holst JJ, Bjorck
IM. Effect of whey on blood glucose and insulin responses to composite
breakfast and lunch meals in type 2 diabetic subjects. Am J Clin
Nutr. 2005 Jul;82(1):69-75.) which is yet another key area
in controlling appetite and metabolism.
Finally,
calcium from dairy products has been found to be associated with
a reduction in bodyweight and fat mass. Calcium is thought to
influence energy metabolism as intracellular calcium regulates
fat cell (adipocyte) lipid metabolism as well as triglyceride
storage.
It's been
demonstrated in several studies the superiority of dairy versus
non-dairy sources of calcium for improving body composition, and
the whey fraction of dairy maybe the key.
The mechanism
responsible for increased fat loss found with dairy-based calcium
versus nondairy calcium has not is not fully understood but researchers
looking at the issue theorized
