Mast Cells

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Mast cell

©Nottingham Uni 2008

Mast cells

©Nottingham Uni 2008

Introduction

Mast cells are derived from the same stem cell line as basophils and while they are similar to basophils they are not identical. Mast cells are found in connective tissue and are larger than other leukocytes at 15-20µm. They have cytoplasm containing a high number of large, intensely staining basophilic granules which mask the nucleus.

Development

Mast cells CFU develops in the bone marrow from the myeloid set cell (CFU-GEMM) under the stimulation of IL-3 and Stem Cell Factor. Then under the stimulation of Il-6 and SCF the immature mast cells are formed. These then enter circulation where they remain undifferentiated. On migration into tissue they then differentiate, under stimulation by Il-4, and produce their granules. Once in the tissue mast cells may last for weeks to months.

Granules

Mast cells can be classified by the presence or lack of tryptase and/or chymase. MCTC mast cells have granules that contain tryptase and chymase (found mainly in skin and intestinal submucosa) while MCT mast cells have granules containing only tryptase (found mainly in respiratory tissue and intestinal mucosa). They can also be classified by their location within the body[1]. Mast cells in connective tissue are larger, have the proteoglycan heparin and contain high amounts of histamine while mucosal mast cells contain less histamine and have the proteoglycan chondroitin sulphate.

More generally the granules contain:

  • Preformed mediators such as serotonin, histamine, proteoglycans, heparin and serine proteases (tryptase and/or chymase)
  • Lipid mediators such as leukotrienes and prostaglandin D2
  • Cytokines: Il-3, Il-4, Il-5, Il-6, Il-8, Il-13, Il-16 TNF-α

  • Chemotactic factors for both neutrophils and eosinophils

Histamine increases vascular permeability, mucous production and smooth muscle tone in the respiratory tract and is responsible for the itch sensation in the skin. Heparin is an anticoagulant and binds with antithrombin III and platelet factor IV to block coagulation factors. Leukotrienes like histamine are responsible for contraction of respiratory smooth muscle. Chymase plays a role in the production of angiotensin II.

Granules are thought to produce a ground substance to facilitate collagen formation in repair of injury.

Actions

Mast cells are involved in the inflammatory response and play a key part in anaphylaxis.

IgE released by plasma cells in response to antigens bind to FC receptors on the mast cell surface. This stimulates the mast cells to degranulate. The granule contents cause blood vessel permeability to increase and, along with chemotactic factors, this enhances the migration of other leukocytes to the area. The production of angiotensin II by chymase causes systemic vasoconstriction in response to vascular damage.

In pathology

References

  1. Metcalfe, D.D., Baram, D. and Mekori, Y. (1997) Mast Cells. Physiological Reviews 77(4): pp.1033-1064.