I had wanted to make an extensive post about the glucocorticoid:Cortisol, but here is an excellent article that covers it:
Muscle Breakdown: Is Cortisol Leading You Down the Catabolic Pathway?
by Rehan Jalali
Walk into any so-called "hardcore" gym these days, and you’ll likely see ‘em by the dozens. They’re easy to spot… they’re the guys who spend hours on end pushing up plates, searching for supreme physical perfection, yet rarely finding it. They are the hopelessly overtrained, and they’re afflicted with that old Protestant work ethic: a little training is good, so a whole lot must be better.
The very idea of producing a peak physique leads to a perverse temptation among these fellows to do all but pitch tent in the weight room and camp out there 24/7. "There’s no such thing as overtraining," they declare. Indeed, they know a lot of clichés and can spout them off with machine-gun repetition—No Pain, No Gain… If the Bar Ain’t a Bendin’, You’re Just Pretendin’… Go Heavy or Go Home. But ask them anything specific about exercise physiology or the dynamics of muscle-fiber hypertrophy and repair, and they’re as quiet as Tori Spelling playing Trivial Pursuit.
The bottom line is, if you’re among the band of hard-and-heavy lifters, cortisol may be literally eating away at your muscle-building potential. Weight training enthusiasts must declare all-out war on this catabolic hormone if they have any aspirations of building muscle. But before we attack all of your cortisol problems, some background on this intriguing subject is in order. After all, understanding leads to solutions (or was it madness?). Anyways, here goes….
Cortisol is the primary glucocorticoid. It is a natural hormone of the adrenal glands. Although cortisol's precise actions are not completely understood, we know that it is essential for life. Cortisol is necessary to maintain important processes in times of prolonged stress. Most of its effects are not directly responsible for the initiation of metabolic or circulatory processes, but it is necessary for their full response.
Cortisol Synthesis: Cholesterol--> Pregnenolone--> Progesterone -->
17-Hydroxyprogesterone-->11-Deoxycortisol --> Cortisol.
Cortisol can exert its effects on peripheral tissue. Once in circulation, cortisol is typically bound to a specific glucocorticoid-binding alpha2-globulin called transcortin. About 75% of cortisol is bound to transcortin, 15% to 20% bound less tightly to albumin, and 5% of circulating cortisol is unbound (1). This is an important factor to take into consideration when measuring cortisol levels. The 24-hour urinary excretion of unmetabolized cortisol is one of the best ways to accurately gauge cortisol levels. This helps take into account bound and free cortisol. Exogenous cortisol has a half-life of about 70 to 90 minutes. Cortisol can be converted to its 11-keto analogue cortisone (you know, the stuff you take when you have some bad swelling or inflammation).
The major catabolic effects of cortisol involve its facilitating the conversion of protein in muscles and connective tissue into glucose and glycogen (cortisol may increase liver glycogen). Gluconeogenesis involves both the increased degradation of protein already formed and the decreased synthesis of new protein. Cortisol can also decrease the utilization of glucose by cells by directly inhibiting glucose transport into the cells (1). A cortisol excess can also lead to a decrease in insulin sensitivity. Cortisol also reduces the utilization of amino acids for protein formation in muscle cells. A cortisol excess can lead to a progressive loss of protein, muscle weakness and atrophy, and loss of bone mass through increased calcium excretion and less calcium absorption. That is one of the reasons long-distance runners tend to have skinny physiques. With the amount of stress that runners place on their bodies, they have high levels of free radicals as well as cortisol. Excess cortisol can also adversely affect tendon health. Cortisol causes a redistribution of bodyfat to occur through an unknown mechanism. Basically, the extremities lose fat and muscle while the trunk and face become fatter. Some of the signs of overtraining include higher cortisol levels, which may cause depression-type effects. Cortisol excess can also lead to hypertension because it causes sodium retention (which can make you appear bloated) and potassium excretion. In other words, excessively high cortisol levels may turn you into a girly man! So the real challenge becomes how can cortisol levels be controlled but not inhibited completely because of cortisol's necessary anti-inflammatory effects?
One way is to take anti-cortisol supplements in the morning upon rising and then before bedtime, as these are two times that cortisol levels seem to be raised. Timed release would not be an option here because this may suppress cortisol levels over too long of an extended period. The key is to suppress elevated levels of cortisol, not decrease normal physiological levels of this hormone because as I mentioned earlier, a small amount is needed for it's anti-inflammatory and other effects.
Another one of cortisol's undesirable effects for athletes is it causes insulin resistance by decreasing the rate at which insulin activates the glucose uptake system, likely because of a post-insulin receptor block (2). Any type of stress that occurs to the body signals the nervous system to relay this to the hypothalamus. The hypothalamus then responds by initiating the stress-hormone cascade starting with CRF (corticotrophin releasing hormone) followed by ACTH (adrenocorticotropic hormone) release, and finally glucocorticoid production (pretty intense, huh?). Stress to the human body can include trauma, anxiety, infections, surgery, and even resistance training and aerobics. Recent research has shown that increased cortisol levels also increased protein breakdown by 5% to 20%. (3) Even mild elevations in serum cortisol can increase plasma glucose concentration and protein catabolism within a few hours in healthy individuals. (4) Cortisol increases with increasing time of intense exercise. In overtrained individuals, cortisol levels increase while testosterone levels decrease. That is why one measure of overtraining is the testosterone: cortisol ratio. By the way, overtraining is defined as an increase in training volume and/or intensity of exercise leading to a decrease in performance. Cortisol can increase bodyfat levels especially when it’s increased dramatically in the body. Increased cortisol levels have an adverse effect on testosterone levels. In fact, one of the primary anti-catabolic effects of testosterone and anabolic steroids is it's decreasing muscle cortisol metabolism. (5) That is one reason why many athletes can completely overtrain when taking anabolic steroids and still increase lean body mass and strength.
Some research indicates that cortisol response to resistance training normalizes after about five weeks and that the testosterone: cortisol ratio is not adversely affected after long periods of resistance training. (6) This suggests that the body has an adaptive response.
Cortisol can inhibit growth-hormone levels by stimulating the release of somatostatin (a growth-hormone antagonist). It may also reduce IGF-1 expression (IGF-1 is one of the most anabolic agents in the body and is the substance that is responsible for most of growth hormone’s positive effects because GH converts into IGF-1 in the liver).
Cortisol has other hormone-modifying effects. Cortisol can directly inhibit pituitary gonadotropin and TSH (thyroid stimulating hormone). (7) By doing so, it can make the target tissues of sex steroids and growth factors resistant to these substances. It may also suppress an enyme known as 5' deiodinase, which converts the relatively inactive thyroid hormone T4 to the active one known as T3 or triiodothyronine. This can decrease metabolic rate and make it harder to lose bodyfat (it's already hard enough for people and anything making it harder definitely needs to be kicked to the curb).
There are different stages in sleep and during one stage, cortisol levels are elevated because protein is being re-cycled. This is one reason that cortisol-suppressing supplements should be taken before bedtime to help minimize excess cortisol production during sleep.
Cortisol also seems to play a role in various disease states. It is found in higher-than-normal levels in diseases ranging from AIDS and multiple sclerosis to Alzheimer's. Prolonged high levels of cortisol can throw the immune system into chaos and ravage the human body. A growing number of researchers believe that many of the worst, and least-understood, diseases will soon be identified as caused by high cortisol, and subsequently treated with cortisol- reducing drugs or supplements.
There was an anti-cortisol conference (the second one ever conducted) held in Las Vegas in 1997 and headed up by Steroidogenesis Inhibitors Inc. and Dr. Alfred T. Sapse. This conference had many researchers involved in anti-cortisol research. Abstracts were presented on various supplemental and drug therapies for decreasing cortisol levels, especially in excessive cortisol-production disorders. In particular, there was an abstract presented by Dr. Sapse that mentioned some nutritional supplements to lower cortisol levels in the body. These included gingko biloba, Vitamin A, Zinc, and acetyl l-carnitine (8). Other abstracts presented there discussed the role of DHEA and its metabolites in helping to decrease cortisol levels. (9) Some abstracts presented looked at the progression of cortisol-induced diseases. Overall, the conference was very informative and helped researchers answer many questions on cortisol and anti-cortisol therapies as well as opened the door for further anti-cortisol research.
Cortisol suppression may be an essential part in the recovery process for athletes involved in a rigorous training program. In fact, one of the signs of overtraining syndrome is high cortisol levels. Moderating (not completely diminishing) cortisol levels is an essential factor in allowing weight-training individuals to completely recover from their exercise session and maximize results (something we would all like to do).
It may be a very good idea to get cortisol levels tested by a qualified physician (when I say qualified, I mean one who has done this sort of thing before and has been to medical school) on a regular basis. One of the best times to test cortisol levels is first thing in the morning on an empty stomach. This reference value or proper range for cortisol first thing in the morning should be between 4 mcg/dl and 19 mcg/dl with the sample being taken from blood. The normal range for free cortisol levels measured from urine is between 10 pg/ml and 110 pg/ml. There is also another way to measure cortisol through a salivary cortisol screening. The normal range for cortisol with this test first thing in the morning is between 100nmol/L and 300nmol/L. These tests may not have the final say in determining high cortisol levels but, it will certainly give you an idea about where your cortisol levels stand.
Controlling Cortisol Levels
Here are some solid tips to help control cortisol levels:
1) Diet: Make sure you are supplying your body with all the essential nutrients you need to prevent deficiencies and for optimal function. This includes plenty of high-quality protein, complex carbohydrates, essential fatty acids, and vitamins and minerals. Try not to restrict calories continuously as some research suggests that restricting normal caloric intake by 50% can lead to a subsequent increase in cortisol levels by 38%. (10)
2) Do not overtrain: Try not to work out three or more days in a row without taking a day off. Keep workouts to under an hour at the most and train efficiently and intensely. I know this phrase has been beaten to death but LISTEN TO YOUR BODY!
Take enough rest days between workouts - If you are really sore, then wait an extra day to train until your body fully recovers from your previous workout. Remember, less may be more in this case.
4) Relax and try not to get stressed out easily: Take an evening walk with a loved one or take a nap when you get a chance.
5) Try to get at least eight hours of sleep per night: Sleep is crucial to the recovery and recuperation process.
6) Spike Insulin levels after a workout: Insulin actually interferes with cortisol and may enhance cortisol clearance from the body. Spiking insulin levels after a workout (by consuming a high-glycemic index carbohydrate) may help minimize excessive cortisol levels since cortisol levels are elevated significantly post resistance training.
--------------------------------------------------------------------------------
Muscle Breakdown: Is Cortisol Leading You Down the Catabolic Pathway?
by Rehan Jalali
Walk into any so-called "hardcore" gym these days, and you’ll likely see ‘em by the dozens. They’re easy to spot… they’re the guys who spend hours on end pushing up plates, searching for supreme physical perfection, yet rarely finding it. They are the hopelessly overtrained, and they’re afflicted with that old Protestant work ethic: a little training is good, so a whole lot must be better.
The very idea of producing a peak physique leads to a perverse temptation among these fellows to do all but pitch tent in the weight room and camp out there 24/7. "There’s no such thing as overtraining," they declare. Indeed, they know a lot of clichés and can spout them off with machine-gun repetition—No Pain, No Gain… If the Bar Ain’t a Bendin’, You’re Just Pretendin’… Go Heavy or Go Home. But ask them anything specific about exercise physiology or the dynamics of muscle-fiber hypertrophy and repair, and they’re as quiet as Tori Spelling playing Trivial Pursuit.
The bottom line is, if you’re among the band of hard-and-heavy lifters, cortisol may be literally eating away at your muscle-building potential. Weight training enthusiasts must declare all-out war on this catabolic hormone if they have any aspirations of building muscle. But before we attack all of your cortisol problems, some background on this intriguing subject is in order. After all, understanding leads to solutions (or was it madness?). Anyways, here goes….
Cortisol is the primary glucocorticoid. It is a natural hormone of the adrenal glands. Although cortisol's precise actions are not completely understood, we know that it is essential for life. Cortisol is necessary to maintain important processes in times of prolonged stress. Most of its effects are not directly responsible for the initiation of metabolic or circulatory processes, but it is necessary for their full response.
Cortisol Synthesis: Cholesterol--> Pregnenolone--> Progesterone -->
17-Hydroxyprogesterone-->11-Deoxycortisol --> Cortisol.
Cortisol can exert its effects on peripheral tissue. Once in circulation, cortisol is typically bound to a specific glucocorticoid-binding alpha2-globulin called transcortin. About 75% of cortisol is bound to transcortin, 15% to 20% bound less tightly to albumin, and 5% of circulating cortisol is unbound (1). This is an important factor to take into consideration when measuring cortisol levels. The 24-hour urinary excretion of unmetabolized cortisol is one of the best ways to accurately gauge cortisol levels. This helps take into account bound and free cortisol. Exogenous cortisol has a half-life of about 70 to 90 minutes. Cortisol can be converted to its 11-keto analogue cortisone (you know, the stuff you take when you have some bad swelling or inflammation).
The major catabolic effects of cortisol involve its facilitating the conversion of protein in muscles and connective tissue into glucose and glycogen (cortisol may increase liver glycogen). Gluconeogenesis involves both the increased degradation of protein already formed and the decreased synthesis of new protein. Cortisol can also decrease the utilization of glucose by cells by directly inhibiting glucose transport into the cells (1). A cortisol excess can also lead to a decrease in insulin sensitivity. Cortisol also reduces the utilization of amino acids for protein formation in muscle cells. A cortisol excess can lead to a progressive loss of protein, muscle weakness and atrophy, and loss of bone mass through increased calcium excretion and less calcium absorption. That is one of the reasons long-distance runners tend to have skinny physiques. With the amount of stress that runners place on their bodies, they have high levels of free radicals as well as cortisol. Excess cortisol can also adversely affect tendon health. Cortisol causes a redistribution of bodyfat to occur through an unknown mechanism. Basically, the extremities lose fat and muscle while the trunk and face become fatter. Some of the signs of overtraining include higher cortisol levels, which may cause depression-type effects. Cortisol excess can also lead to hypertension because it causes sodium retention (which can make you appear bloated) and potassium excretion. In other words, excessively high cortisol levels may turn you into a girly man! So the real challenge becomes how can cortisol levels be controlled but not inhibited completely because of cortisol's necessary anti-inflammatory effects?
One way is to take anti-cortisol supplements in the morning upon rising and then before bedtime, as these are two times that cortisol levels seem to be raised. Timed release would not be an option here because this may suppress cortisol levels over too long of an extended period. The key is to suppress elevated levels of cortisol, not decrease normal physiological levels of this hormone because as I mentioned earlier, a small amount is needed for it's anti-inflammatory and other effects.
Another one of cortisol's undesirable effects for athletes is it causes insulin resistance by decreasing the rate at which insulin activates the glucose uptake system, likely because of a post-insulin receptor block (2). Any type of stress that occurs to the body signals the nervous system to relay this to the hypothalamus. The hypothalamus then responds by initiating the stress-hormone cascade starting with CRF (corticotrophin releasing hormone) followed by ACTH (adrenocorticotropic hormone) release, and finally glucocorticoid production (pretty intense, huh?). Stress to the human body can include trauma, anxiety, infections, surgery, and even resistance training and aerobics. Recent research has shown that increased cortisol levels also increased protein breakdown by 5% to 20%. (3) Even mild elevations in serum cortisol can increase plasma glucose concentration and protein catabolism within a few hours in healthy individuals. (4) Cortisol increases with increasing time of intense exercise. In overtrained individuals, cortisol levels increase while testosterone levels decrease. That is why one measure of overtraining is the testosterone: cortisol ratio. By the way, overtraining is defined as an increase in training volume and/or intensity of exercise leading to a decrease in performance. Cortisol can increase bodyfat levels especially when it’s increased dramatically in the body. Increased cortisol levels have an adverse effect on testosterone levels. In fact, one of the primary anti-catabolic effects of testosterone and anabolic steroids is it's decreasing muscle cortisol metabolism. (5) That is one reason why many athletes can completely overtrain when taking anabolic steroids and still increase lean body mass and strength.
Some research indicates that cortisol response to resistance training normalizes after about five weeks and that the testosterone: cortisol ratio is not adversely affected after long periods of resistance training. (6) This suggests that the body has an adaptive response.
Cortisol can inhibit growth-hormone levels by stimulating the release of somatostatin (a growth-hormone antagonist). It may also reduce IGF-1 expression (IGF-1 is one of the most anabolic agents in the body and is the substance that is responsible for most of growth hormone’s positive effects because GH converts into IGF-1 in the liver).
Cortisol has other hormone-modifying effects. Cortisol can directly inhibit pituitary gonadotropin and TSH (thyroid stimulating hormone). (7) By doing so, it can make the target tissues of sex steroids and growth factors resistant to these substances. It may also suppress an enyme known as 5' deiodinase, which converts the relatively inactive thyroid hormone T4 to the active one known as T3 or triiodothyronine. This can decrease metabolic rate and make it harder to lose bodyfat (it's already hard enough for people and anything making it harder definitely needs to be kicked to the curb).
There are different stages in sleep and during one stage, cortisol levels are elevated because protein is being re-cycled. This is one reason that cortisol-suppressing supplements should be taken before bedtime to help minimize excess cortisol production during sleep.
Cortisol also seems to play a role in various disease states. It is found in higher-than-normal levels in diseases ranging from AIDS and multiple sclerosis to Alzheimer's. Prolonged high levels of cortisol can throw the immune system into chaos and ravage the human body. A growing number of researchers believe that many of the worst, and least-understood, diseases will soon be identified as caused by high cortisol, and subsequently treated with cortisol- reducing drugs or supplements.
There was an anti-cortisol conference (the second one ever conducted) held in Las Vegas in 1997 and headed up by Steroidogenesis Inhibitors Inc. and Dr. Alfred T. Sapse. This conference had many researchers involved in anti-cortisol research. Abstracts were presented on various supplemental and drug therapies for decreasing cortisol levels, especially in excessive cortisol-production disorders. In particular, there was an abstract presented by Dr. Sapse that mentioned some nutritional supplements to lower cortisol levels in the body. These included gingko biloba, Vitamin A, Zinc, and acetyl l-carnitine (8). Other abstracts presented there discussed the role of DHEA and its metabolites in helping to decrease cortisol levels. (9) Some abstracts presented looked at the progression of cortisol-induced diseases. Overall, the conference was very informative and helped researchers answer many questions on cortisol and anti-cortisol therapies as well as opened the door for further anti-cortisol research.
Cortisol suppression may be an essential part in the recovery process for athletes involved in a rigorous training program. In fact, one of the signs of overtraining syndrome is high cortisol levels. Moderating (not completely diminishing) cortisol levels is an essential factor in allowing weight-training individuals to completely recover from their exercise session and maximize results (something we would all like to do).
It may be a very good idea to get cortisol levels tested by a qualified physician (when I say qualified, I mean one who has done this sort of thing before and has been to medical school) on a regular basis. One of the best times to test cortisol levels is first thing in the morning on an empty stomach. This reference value or proper range for cortisol first thing in the morning should be between 4 mcg/dl and 19 mcg/dl with the sample being taken from blood. The normal range for free cortisol levels measured from urine is between 10 pg/ml and 110 pg/ml. There is also another way to measure cortisol through a salivary cortisol screening. The normal range for cortisol with this test first thing in the morning is between 100nmol/L and 300nmol/L. These tests may not have the final say in determining high cortisol levels but, it will certainly give you an idea about where your cortisol levels stand.
Controlling Cortisol Levels
Here are some solid tips to help control cortisol levels:
1) Diet: Make sure you are supplying your body with all the essential nutrients you need to prevent deficiencies and for optimal function. This includes plenty of high-quality protein, complex carbohydrates, essential fatty acids, and vitamins and minerals. Try not to restrict calories continuously as some research suggests that restricting normal caloric intake by 50% can lead to a subsequent increase in cortisol levels by 38%. (10)
2) Do not overtrain: Try not to work out three or more days in a row without taking a day off. Keep workouts to under an hour at the most and train efficiently and intensely. I know this phrase has been beaten to death but LISTEN TO YOUR BODY!
Take enough rest days between workouts - If you are really sore, then wait an extra day to train until your body fully recovers from your previous workout. Remember, less may be more in this case.
4) Relax and try not to get stressed out easily: Take an evening walk with a loved one or take a nap when you get a chance.
5) Try to get at least eight hours of sleep per night: Sleep is crucial to the recovery and recuperation process.
6) Spike Insulin levels after a workout: Insulin actually interferes with cortisol and may enhance cortisol clearance from the body. Spiking insulin levels after a workout (by consuming a high-glycemic index carbohydrate) may help minimize excessive cortisol levels since cortisol levels are elevated significantly post resistance training.
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