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Neutrophil granulocyte - Wikipedia, the free encyclopedia

Neutrophil granulocyte

From Wikipedia, the free encyclopedia

A blood smear showing a neutrophil granulocyte; the three-lobulated nucleus can be seen. This picture has been stained with MayGrunwald Giemsa, and observed with a 100x objective in oil immersion.
A blood smear showing a neutrophil granulocyte; the three-lobulated nucleus can be seen. This picture has been stained with MayGrunwald Giemsa, and observed with a 100x objective in oil immersion.

Neutrophil granulocytes, generally referred to as neutrophils, are the most abundant type of white blood cells in humans and form an essential part of the immune system.

Their name arrives from staining characteristics on hematoxylin and eosin (H&E) histological or cytological preparations. Whereas basophilic white blood cells stain dark blue and eosinophilic white blood cells stain bright red, neutrophils stain a neutral pink.

Neutrophils are normally found in the blood stream. However, during the beginning (acute) phase of inflammation, particularly as a result of bacterial infection, neutrophils leave the blood vessels (vasculature) and migrate toward the site of inflammation, by following chemical signals in a process called chemotaxis. They are the predominant cells in pus, accounting for its whitish/yellowish appearance.

Neutrophils react within an hour of tissue injury and are the hallmark of acute inflammation.[1]

Contents

[edit] Measurement of neutrophils

Neutrophil granulocyte migrates from the blood vessel to the matrix, sensing proteolytic enzymes, in order to determine intercellular connections (to the improvement of its mobility) and envelop bacteria through phagocytosis.
Neutrophil granulocyte migrates from the blood vessel to the matrix, sensing proteolytic enzymes, in order to determine intercellular connections (to the improvement of its mobility) and envelop bacteria through phagocytosis.

Neutrophil granulocytes have an average volume of 330 femtoliters (fl) and a diameter of 12-15 micrometers (µm) in peripheral blood smears.

With the eosinophil and the basophil, they form the class of polymorphonuclear cells, named for the nucleus's characteristic multilobulated shape (as compared to lymphocytes and monocytes, the other types of white cells). Neutrophils are the most abundant white blood cells in humans (approximately 10^11 are produced daily) ; they account for 70% of all white blood cells (leukocytes).

The stated normal range for human blood counts varies between laboratories, but a neutrophil count of 2.5-7.5 x 109/L is a standard normal range. People of African and Middle Eastern descent may have lower counts which are still normal.

A report may divide neutrophils into segmented neutrophils and bands.

[edit] Lifespan

The average halflife of a non-activated neutrophil in the circulation is about 12 hours. Upon activation, they marginate (position themselves adjacent to the blood vessel endothelium), and undergo selectin dependent capture followed by integrin dependent adhesion in most cases, after which they migrate into tissues, where they survive for 1-2 days.

Neutrophils are much more numerous than the longer-lived monocyte/macrophage phagocytes. The first phagocyte a pathogen (disease-causing microorganism) is likely to encounter is a neutrophil. Some experts feel that the short lifetime of neutrophils is an evolutionary adaptation to minimize propagation of those pathogens that parasitize phagocytes. The more time such parasites spend outside a host cell, the more likely they will be destroyed by some component of the body's defenses. However, because neutrophil antimicrobial products can also damage host tissues, other authorities feel that their short life is an adaptation to limit damage to the host during inflammation.[citation needed]

[edit] Chemotaxis

Neutrophils undergo a process called chemotaxis that allows them to migrate toward sites of infection or inflammation. Cell surface receptors are able to detect chemical gradients of molecules such as interleukin-8 (IL-8), interferon gamma (IFN-gamma), and C5a which these cells use to direct the path of their migration.

[edit] Function

Neutrophil
Neutrophil

Being highly motile, neutrophils quickly congregate at a focus of infection, attracted by cytokines expressed by activated endothelium, mast cells and macrophages.

[edit] Phagocytosis

Neutrophils are phagocytes, capable of ingesting microorganisms or particles. They can internalise and kill many microbes, each phagocytic event resulting in the formation of a phagosome into which reactive oxygen species and hydrolytic enzymes are secreted. The consumption of oxygen during the generation of reactive oxygen species has been termed the "respiratory burst," although it actually has nothing to do with respiration or energy production.

The respiratory burst involves the activation of the enzyme NADPH oxidase, which produces large quantities of superoxide, a reactive oxygen species. Superoxide dismutates, spontaneously or through catalysis via enzymes known as superoxide dismutases (Cu/ZnSOD and MnSOD), to hydrogen peroxide, which is then converted to hypochlorous acid (HOCl, also known as chlorine bleach) by the green heme enzyme myeloperoxidase. It is thought that the bactericidal properties of HOCl are enough to kill bacteria phagocytosed by the neutrophil, but this has not been proven conclusively.

[edit] Degranulation

Neutrophils also release an assortment of proteins in three types of granules by a process called degranulation:

Granule type Protein
specific granules (or "secondary granules") Lactoferrin and Cathelicidin
azurophilic granules (or "primary granules") myeloperoxidase, bactericidal/permeability increasing protein (BPI), Defensins and the serine proteases neutrophil elastase and cathepsin G
tertiary granules cathepsin, gelatinase

[edit] NETs

There is controversy about whether neutrophils can also extrude neutrophil extracellular traps (NETs), a web of fibers composed of chromatin and serine proteases that trap and kill microbes extracellularly. It is suggested that NETs provide a high local concentration of antimicrobial components and bind, disarm, and kill microbes independent of phagocytic uptake. In addition to their possible antimicrobial properties, NETs may serve as a physical barrier that prevents further spread of pathogens. Recently, NETs have been shown to play a role in inflammatory diseases, as NETs could be detected in preeclampsia, a pregnancy related inflammatory disorder in which neutrophils are known to be activated.[citation needed]

[edit] Role in disease

Low neutrophil counts are termed "neutropenia". This can be congenital (genetic disorder) or it can develop later, as in the case of aplastic anemia or some kinds of leukemia. It can also be a side-effect of medication, most prominently chemotherapy. Neutropenia predisposes heavily for infection. Finally, neutropenia can be the result of colonization by intracellular neutrophilic parasites.

Functional disorders of neutrophils are often hereditary. They are disorders of phagocytosis or deficiencies in the respiratory burst (as in chronic granulomatous disease, a rare immune deficiency, and myeloperoxidase deficiency).

In alpha 1-antitrypsin deficiency, the important neutrophil enzyme elastase is not adequately inhibited by alpha 1-antitrypsin, leading to excessive tissue damage in the presence of inflammation - most prominently pulmonary emphysema.

In Familial Mediterranean fever (FMF), a mutation in the pyrin (or marenostrin) gene, which is expressed mainly in neutrophil granulocytes, leads to a constitutionally active acute phase response and causes attacks of fever, arthralgia, peritonitis and - eventually - amyloidosis.[clarify]

[edit] Media

[edit] Additional images

[edit] References

  1. ^ Cohen, Stephen. Burns, Richard C. Pathways of the Pulp, 8th Edition. St. Louis: Mosby, Inc. 2002. page 465.


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