Sleep is commonly viewed as a restorative process that influences the nervous, neuroendocrine and immune systems. Sleep is considered critical for the maintenance of health; abnormal sleep patterns are associated with increased risk of cardiovascular disease, mood disorders, chronic pain and a shortened lifespan.11 In a lot of ways, sleep is like sex— you can never get too much of it. In addition, sleep is a lot like your boss when he’s working…don’t disturb him or he gets pissed. Well, your body is the same way— don’t disturb its sleep or he will take it out on you.                                                           

A 1999 study in The Lancet reported that when healthy young men had four hours of sleep for six nights, it resulted in a harmful impact on carbohydrate metabolism and endocrine function. Subjects experienced an increase in insulin resistance and reduced thyroid levels. In addition, evening cortisol and increased sympathetic activity of the nervous system was also reported.18 Other studies have documented that sleep deprivation doesn’t give the nervous system a chance to rest and results in elevated adrenaline levels. One study demonstrated that subjects exposed to sleep deprivation (i.e., 3.3 hours of sleep) resulted in a significant elevation in circulating levels of norepinephrine and epinephrine during the night.15 Circulating catecholamines are normally supposed to decline with sleep.

Another less well-known hormone identified as increasing during sleep is prolactin. Now don’t freak out, you’re not going to start squirting milk out of your nipples like a breastfeeding mother, but circulating levels of prolactin rise during the night with sleep. There’s a linkage between GH and prolactin secretion during non-REM sleep in humans. Prolactin and GH share 40 percent of the same protein sequence. Prolactin is secreted in the anterior portion of the brain, but is also synthesized and secreted by a broad range of other cells in the body, including various immune cells. It’s interesting that sleep deprivation reduces nightly prolactin levels, which may explain why there’s reduced immune functionality with sleep loss. Mice that are made genetically deficient in prolactin are immunocompromised to which sleep loss shares a resemblance.12 Prolactin has also been shown to be a regulator of testosterone. When men were given the anti-depressant drug, haloperidol (which lowers dopamine, but results in an increased release of the prolactin), the resulting significant increase in prolactin corresponded with a significant increase in testosterone 60 minutes later. In the same study, the control group’s mean testosterone levels showed the normal decline during daytime hours. This delay between increased prolactin and increased testosterone is consistent with a similar delay between the increases of these two hormones occurring at night during sleep.13

8 a.m. and are at their lowest around 8 p.m.6 It’s been reported that in young men, the sleep-related rise in testosterone has been linked to the first episode of rapid eye movement (REM).5 REM sleep is an active period marked by intense activity in the brain and rapid bursts of eye movements. At the same time, REM sleep is when dreaming occurs. The stimulus for testosterone production is regulated by gonadotropin-releasing hormone (GnRH), which then stimulates leutinizing hormone (LH) production from the hypothalamus (see figure 1).
During sleep, episodic bursts of LH drive testosterone production in men. The frequency and amplitude of these pulses are essential for appropriate testosterone production. There’s generally a 40-minute lag time from when the first burst of LH is secreted to stimulation of testosterone production.7 So, now you understand that during normal sleep there are episodic pulses of LH-stimulating testosterone production, however when sleep is disrupted, the circadian rhythm of testosterone is disrupted as well.

Partying Without Sleep Is Bad for Testosterone
Who the hell wants to stay home at night when you could be dancing with some hot MILF at the club?! Well, while you’re trying to “score,” the loss of sleep can be detrimental to your testosterone levels. Schiavi et al.8 reported that in a group of healthy young men, sleep deprivation causes decreases in sleep quality and REM episodes, which were associated with lower bioavailable testosterone levels, regardless of one’s age. Every bodybuilder knows he should be getting eight to 10 hours of sleep a night, but most of us take it with a grain of salt.
A single night of disrupted sleep can really take its toll on your testosterone levels. For example, when young men were exposed to a night of partial sleep loss, it resulted in a blunted testosterone response during the night. In that study when men were allowed to get a full eight hours of continuous sleep, all subjects had a nocturnal rise in testosterone. When the same subjects were allowed two hours of sleep, none of the subjects without REM sleep showed any rise in testosterone during the night.5

17.5 inches) has been associated with sleep apnea. Obesity is a major contributing factor to sleep apnea as the excess adipose tissue around the neck collapses the trachea during sleep. Sleep apnea results in a reduction in both LH and testosterone levels. Luboshitzky et al.17 examined healthy young men and compared them to overweight sleep apnea patients and found that sleep apnea resulted in severe testosterone dysfunction. Compared to healthy young men, sleep apnea patients had lower total LH and testosterone levels due to decreased LH pulse amplitude and decreased pulsatile testosterone secretions during the night. When obese patients lose weight, the nightly circadian rhythms of LH and testosterone are restored.19

Obesity in itself suppresses testosterone levels, but the hypoxia that occurs during apnea suppresses testosterone levels as well. Additionally, when apnea patients are placed on nasal continuous positive airway pressure (CPAP) machines (which delivers air into your airway through a specially designed nasal mask), testosterone levels revert back to normal, demonstrating that obesity alone isn’t the sole cause of decreased testosterone levels occurring during sleep.20
When patients with sleep apnea were compared to each other, the degree of testosterone suppression taking place with sleep apnea was directly related to the amount of hypoxia occurring during sleep. Decreased morning testosterone levels, but not LH, is related to the degree of hypoxia.20 For example, Kouchiyama et al.31 found that when sleep apnea patients were compared to each other, the patients who had less severe oxygen saturation had testosterone peaks at 6 a.m., whereas the patients who were classified as having severe oxygen desaturation during sleep exhibited delayed peaks in testosterone for example, at 10 a.m.

Responses to Aging
It’s no surprise that with aging there’s a decrease in testosterone and lean muscle mass. Cross-sectional studies have demonstrated that after the age of 40, testosterone declines by  about two percent per year with increases in sex-hormone binding globulin, follicle stimulating hormone and LH concentrations.26 The disruption in testosterone can be attributed to several mechanisms, but the stimulus for testosterone production becomes lower as we age and the male testes don’t respond as rapidly. Houston we have a problem….!!
That’s right. As men age, we experience testicular dysfunction and the testes don’t respond to LH like younger males. For example, in healthy elderly men given a dose of human chorionic gonadotrophin hormone, which causes a sharp rise in LH production, researchers found it doesn’t increase testosterone like young men. In fact, there’s a blunted response in elderly men, which indicates a defect in the Leydig cells in the testes to produce testosterone.28
During sleep, older men demonstrate less testosterone production as pulsatile LH release in elderly men is marked by lower amounts secreted, but are secreted more frequently than pulses in young men.27 This physiological dysfunction can occur as early as 45 years of age. Luboshitzky et al.29 reported that middle-aged men (i.e., 45 years of age) had significantly less pulsatile secretion of testosterone during sleep and more LH bursts secreted at night than younger adults (i.e., 24 years of age). Additionally, the middle-aged men had decreased sleep stages three and four (deep sleep) and an increased number of nocturnal awakenings.30 In one analysis, older men who experienced reduced REM sleep were correlated with reduced serum testosterone levels.8
In conclusion, decreases in sleep won’t only reduce your immune system, impair GH secretion, raise cortisol and daytime catecholamines, but also lower testosterone production. All hardcore bodybuilders should be getting as much sleep as possible. I remember reading that Lee Haney always made sure he took a nap every day when he was training hard— in addition to his nightly nine hours of sleep. It’s hard to think that something as small as sleeping a little more could be all we need to get the most out of training.Key Points:
•    Sleep is an important regulator of testosterone function.
•    Sleep deprivation results in a blunted nocturnal rise in testosterone.
•    Sleep apnea can impair nocturnal rises in LH and testosterone levels.
•    High levels of testosterone can result in sleep-disordered breathing through unknown mechanisms.
•    Aging is associated with a blunted rise in nocturnal rise in LH and testosterone.