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Anatomy and physiology

Endocrine system anatomy and physiology

Hypothalamic hormones

Hunger and satiety

Pituitary gland hormones

Adrenocorticotropic hormone

Growth hormone and somatostatin

Oxytocin and prolactin

Antidiuretic hormone

Thyroid hormones

Thyroid hormones

Pancreatic hormones




Adrenal gland hormones

Synthesis of adrenocortical hormones


Gonadal hormones


Estrogen and progesterone

Calcium, phosphate and magnesium homeostasis

Phosphate, calcium and magnesium homeostasis

Parathyroid hormone

Vitamin D





0 / 6 complete

High Yield Notes

9 pages



of complete

External References

First Aid








Calcitonin p. 343

medullary thyroid carcinoma production p. 349

osteoporosis p. 472

signaling pathways of p. 353

tumor marker p. 224


calcitonin and p. 342

Parathyroid hormone (PTH) p. 336

calcitonin and p. 342


Content Reviewers

Rishi Desai, MD, MPH


Sam Gillespie, BSc

Pauline Rowsome, BSc (Hons)

The body’s blood calcium level stays stable thanks to three hormones: parathyroid hormone, vitamin D, and calcitonin.

Parathyroid hormone and vitamin D help increase calcium levels, whereas calcitonin helps lower them. Let’s focus on the role of calcitonin.

The majority of the extracellular calcium, the calcium in the blood and interstitium, is split almost equally into calcium that’s diffusible and calcium that’s not diffusible.

Diffusible calcium is small enough to diffuse across cell membranes and there are two subcategories.

The first is free-ionized calcium, which is involved in all sorts of cellular processes like neuronal action potentials, contraction of skeletal, smooth, and cardiac muscle, hormone secretion, and blood coagulation, all of which are tightly regulated by enzymes and hormones.

The second category is complexed calcium, which is where the positively charged calcium is ionically linked to tiny negatively charged molecules like oxalate and phosphate, which are small anions, that are found in our blood.

The complexed calcium forms a molecule that’s electrically neutral but unlike free-ionized calcium it’s not useful for cellular processes.

Finally there’s the non-diffusible calcium which is bound to large negatively charged proteins like albumin.

The resulting protein-calcium complex is too large and charged to cross membranes, so the non-diffusible calcium is also uninvolved in cellular processes.

Now, calcitonin is a polypeptide hormone involved in regulating blood calcium levels.

Calcitonin comes from the parafollicular cells, or C cells, of the thyroid gland which is a gland located in the neck that looks like two thumbs hooked together in the shape of a “V”.

The thyroid gland is made up of thousands of follicles, which are small spheres lined with follicular cells.

C cells are adjacent to follicles, more precisely in the connective tissue that separates the follicles.

C cells synthesize preprocalcitonin, a peptide with 141 amino acids, which becomes procalcitonin after a signal peptide is cut off by an enzyme via proteolytic cleavage, leaving 116 amino acids.


Calcitonin is a polypeptide hormone that regulates calcium levels in the blood. It is secreted by the parafollicular cells (C cells) of the thyroid gland in response to elevated serum calcium levels. Calcitonin lowers serum calcium by inhibiting calcium release from bone marrow and slowing down the absorption of dietary calcium.

Calcitonin plays a crucial role in maintaining calcium homeostasis; thus, its blood levels are tightly regulated. Elevated calcitonin levels are seen in conditions such as hyperthyroidism and thyroid malignancy.


  1. "Medical Physiology" Elsevier (2016)
  2. "Physiology" Elsevier (2017)
  3. "Human Anatomy & Physiology" Pearson (2018)
  4. "Principles of Anatomy and Physiology" Wiley (2014)
  5. "On the Origin of Cells and Derivation of Thyroid Cancer: C Cell Story Revisited" European Thyroid Journal (2016)
  6. "Calcitonin Receptor Plays a Physiological Role to Protect Against Hypercalcemia in Mice" Journal of Bone and Mineral Research (2008)

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