Leptin is a hormone that is secreted by fat storage cells known as adipose cells
The concentration of leptin in the blood is controlled by the amount of adipose tissue in the body
As we eat food over a period of time, adipose cells store fats in the form of lipids
As adipose cells fill up, they secrete more leptin
This leptin circulates in the blood and targets groups of cells in the hypothalamus that are responsible for controlling appetite
It does this by binding to receptors in the membranes of these cells
This inhibits appetite and causes the sensation of hunger to be suppressed, or stopped
If food intake is low over a period of time, the lipid reserves in adipose cells are used up and the adipose cells become empty again
As adipose cells empty and shrink, they secrete less leptin
The suppression of appetite stops, and the sensation of hunger returns
Testing Leptin
As leptin inhibits appetite and causes the sensation of hunger to be suppressed, it was once thought that clinical obesity could be controlled by injecting patients with leptin
Early trials in mice showed promise
Mice with a genetic leptin deficiency were shown to be less active and to gain weight faster than mice without this deficiency
Individuals with leptin deficiency lost 30% of their body mass when injected with leptin
However, clinical trials to test whether this could be an effective treatment for obesity in humans found it to be ineffective
Reasons for the failure to control obesity with leptin injections
Unlike in mice, most obese humans have very high concentrations of leptin in their blood
There are some human individuals who have problems with leptin production, but these are the exception rather than the rule
It seems as though their bodies have become resistant to the effects of the hormone
The target cells in the hypothalamus become resistant to leptin and therefore fail to respond to it
This leads to a lack of appetite suppression, causing a continuous sensation of hunger and excessive food intake
This means that injections of extra leptin fail to control obesity in the majority of obese patients
Other problems with the clinical trials included
The need to inject leptin several times a day
Irritation at the injection site
Regain of any weight lost after the end of the trial
It is always important to remember that while other mammalian research models such as mice are important, they are not always perfect
Melatonin
Many physiological processes and behavioural patterns occur in regular, daily rhythms in organisms throughout the plant and animal kingdoms
Many animal species are only active for a specific part of the 24-hour cycle e.g. nocturnal animals are only active at night
Humans are adapted to live in a 24-hour cycle and many aspects of our physiology and behaviour, including physical activity, sleep, body temperature, and secretion of hormones, follow specific and regular cycles throughout the 24-hour period
These daily cycles are known as circadian rhythms
In humans, many circadian rhythms are influenced by the hormone melatonin
Melatonin is secreted by the pineal gland, which is located in the brain
Melatonin secretion increases in the evening in response to darkness and decreases at dawn in response to light
Although melatonin affects many aspects of human physiology and behaviour, one of the main circadian rhythms it controls is our sleep-wake cycle
Increasing melatonin levels lead to feelings of tiredness and promote sleep
Decreasing melatonin levels lead to the body's preparation for waking up and staying awake during the day
Experiments have also suggested that
Increased melatonin at night contributes to the night-time drop in core body temperature in humans
Melatonin receptors in the kidney enable melatonin produced at night to cause the night-time decrease in urine production in humans
Melatonin is still released in the absence of light and darksignals, but on a slightly longer cycle than the usual 24 hours
Subjects living in the dark with no access to natural daylight still release melatonin on a roughly 24 hour cycle
This suggests that the role of light is to reset the melatonin system every day to keep the circadian rhythm in line with daylight hours
Uses of Melatonin
Jet lag is the term used to describe the various symptoms a person can experience after crossing multiple time zones during a long flight
The symptoms can include:
Difficulty in remaining awake during the day
Difficulty in sleeping during the night
General fatigue
Irritability
Headaches
Indigestion
Jet lag occurs because the body's circadian rhythms are still set to the timing of day and night in the time zone from which the person has just departed, rather than the time zone they have just arrived in
Jet lag usually only last for a few days as the body adjusts to the new day and night regime
Melatonin tablets are sometimes taken to prevent or reduce jet-lag symptoms
The tablets are normally taken just before going to sleep
Some clinical trials have shown this use of melatonin to be effective in promoting sleep and reducing other jet lag symptoms
However, the safe and appropriate use of this medication still needs more testing