Enterochromaffin Cells: The Melatonin Factory in Your Gut
The pineal gland in the brain is not the body’s only source of melatonin — in fact, the gastrointestinal tract produces the majority of the body’s melatonin through enterochromaffin cells, which are scattered throughout the stomach and intestines. These gut-derived melatonin is released directly into the portal circulation, acting locally on gut smooth muscle and Enterochromaffin cells rather than systemically. This explains why conditions characterised by gut motility disorders (such as irritable bowel syndrome) frequently co-occur with sleep disturbances, and why addressing gut health can sometimes improve sleep quality.
Implications for Sleep and Gut Health
The gut-brain melatonin axis means that the timing and composition of your last meal of the day influences sleep quality through its effect on gut melatonin production. High-protein meals in the evening provide tryptophan, the amino acid precursor to both melatonin and serotonin, supporting the gut’s production of these hormones. Conversely, high-sugar meals in the evening disrupt the gut microbiome, which indirectly affects the gut melatonin production system. For people with sleep disturbances and concurrent gut complaints, addressing both the gut microbiome and sleep hygiene simultaneously is more effective than targeting either system in isolation.
Iron Role in Brain Energy Metabolism
Iron is essential for brain function far beyond its role in haemoglobin and oxygen transport. The brain consumes approximately 20% of the body oxygen despite accounting for only 2% of body weight, and iron is critical in this energy metabolism — particularly in the electron transport chain within mitochondria, where iron-sulfur clusters are essential components of Complexes I, II, and III. Iron is also a cofactor for tyrosine hydroxylase, the rate-limiting enzyme in dopamine synthesis, and for ribonucleotide reductase, the enzyme required for DNA synthesis. These roles mean that iron deficiency — even without frank anaemia — can impair dopaminergic signalling, reduce neural energy production, and compromise myelin formation, with measurable effects on attention, memory, and executive function.
Why Iron Deficiency Is So Common
Iron deficiency is the most common nutritional deficiency worldwide, affecting an estimated 2 billion people. In menstruating women, iron deficiency is particularly prevalent due to monthly menstrual blood loss — even a “normal” menstrual iron loss of 30-40ml per cycle can gradually deplete iron stores over months to years. In men and post-menopausal women, iron deficiency should always be investigated as it can signal occult gastrointestinal blood loss. The symptoms of iron deficiency extend well beyond fatigue and pallor: restless legs syndrome (strongly associated with brain iron deficiency), impaired thermoregulation, reduced exercise tolerance, and cognitive impairment in both children and adults.
Iron Status: Not Just Haemoglobin
The standard diagnostic marker for iron deficiency is haemoglobin — but this misses the majority of iron-deficient people, because haemoglobin only falls after iron stores (ferritin) are already significantly depleted. Ferritin is the storage form of iron, and a level below 30 ng/mL indicates depleted stores, while anything below 15 ng/mL indicates frank deficiency. Optimal ferritin for cognitive function appears to be in the range of 50-100 ng/mL. Iron supplementation should always be guided by ferritin testing, not haemoglobin alone, and excessive iron (from over-supplementation or haemochromatosis) carries its own serious risks including liver cirrhosis and increased infection risk through iron-dependent pathogen growth.
Iron Role in Brain Energy Metabolism
Iron is essential for brain function far beyond its role in haemoglobin and oxygen transport. The brain consumes approximately 20% of the body oxygen despite accounting for only 2% of body weight, and iron is critical in this energy metabolism — particularly in the electron transport chain within mitochondria, where iron-sulfur clusters are essential components of Complexes I, II, and III. Iron is also a cofactor for tyrosine hydroxylase, the rate-limiting enzyme in dopamine synthesis, and for ribonucleotide reductase, the enzyme required for DNA synthesis. These roles mean that iron deficiency — even without frank anaemia — can impair dopaminergic signalling, reduce neural energy production, and compromise myelin formation, with measurable effects on attention, memory, and executive function.
Why Iron Deficiency Is So Common
Iron deficiency is the most common nutritional deficiency worldwide, affecting an estimated 2 billion people. In menstruating women, iron deficiency is particularly prevalent due to monthly menstrual blood loss — even a “normal” menstrual iron loss of 30-40ml per cycle can gradually deplete iron stores over months to years. In men and post-menopausal women, iron deficiency should always be investigated as it can signal occult gastrointestinal blood loss. The symptoms of iron deficiency extend well beyond fatigue and pallor: restless legs syndrome (strongly associated with brain iron deficiency), impaired thermoregulation, reduced exercise tolerance, and cognitive impairment in both children and adults.
Iron Status: Not Just Haemoglobin
The standard diagnostic marker for iron deficiency is haemoglobin — but this misses the majority of iron-deficient people, because haemoglobin only falls after iron stores (ferritin) are already significantly depleted. Ferritin is the storage form of iron, and a level below 30 ng/mL indicates depleted stores, while anything below 15 ng/mL indicates frank deficiency. Optimal ferritin for cognitive function appears to be in the range of 50-100 ng/mL. Iron supplementation should always be guided by ferritin testing, not haemoglobin alone, and excessive iron (from over-supplementation or haemochromatosis) carries its own serious risks including liver cirrhosis and increased infection risk through iron-dependent pathogen growth.
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