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PDGFRB

PDGFRB

Reviewed February 2013

What is the official name of the PDGFRB gene?

The official name of this gene is “platelet-derived growth factor receptor, beta polypeptide.”

PDGFRB is the gene's official symbol. The PDGFRB gene is also known by other names, listed below.

Read more about gene names and symbols on the About page.

What is the normal function of the PDGFRB gene?

The PDGFRB gene provides instructions for making a protein called platelet-derived growth factor receptor beta (PDGFRβ), which is part of a family of proteins called receptor tyrosine kinases. Receptor tyrosine kinases transmit signals from the cell surface into the cell through a process called signal transduction. The PDGFRβ protein is found in the cell membrane of certain cell types, where a protein called platelet-derived growth factor attaches (binds) to it. This binding turns on (activates) the PDGFRβ protein, which then activates other proteins inside the cell by adding a cluster of oxygen and phosphorus atoms (a phosphate group) at specific positions. This process, called phosphorylation, leads to the activation of a series of proteins in multiple signaling pathways.

The signaling pathways stimulated by the PDGFRβ protein control many important processes in the cell such as growth and division (proliferation), movement, and survival. PDGFRβ protein signaling is important for the development of many types of cells throughout the body.

Does the PDGFRB gene share characteristics with other genes?

The PDGFRB gene belongs to a family of genes called immunoglobulin superfamily, immunoglobulin-like domain containing (immunoglobulin superfamily, immunoglobulin-like domain containing). It also belongs to a family of genes called immunoglobulin superfamily, I-set domain containing (immunoglobulin superfamily, I-set domain containing).

A gene family is a group of genes that share important characteristics. Classifying individual genes into families helps researchers describe how genes are related to each other. For more information, see What are gene families? in the Handbook.

How are changes in the PDGFRB gene related to health conditions?

familial idiopathic basal ganglia calcification - caused by mutations in the PDGFRB gene

At least two mutations in the PDGFRB gene have been found to cause familial idiopathic basal ganglia calcification (FIBGC). This condition is characterized by abnormal deposits of calcium (calcification) in the brain, which can lead to movement and psychiatric problems. These mutations change single protein building blocks (amino acids) in the PDGFRβ protein. It is unclear how PDGFRB gene mutations cause FIBGC. Mutations may alter signaling within cells that line blood vessels in the brain, causing them to take in excess calcium, and leading to calcification of the lining of these blood vessels. Alternatively, changes in the PDGFRβ protein can alter phosphate transport signaling pathways, causing an increase in phosphate levels. In the brain, the excess phosphate combines with calcium and forms deposits.

The PDGFRB gene is active (expressed) throughout the body; it is unclear why the effects of these mutations are limited to the basal ganglia and other brain regions that are involved in FIBGC.

PDGFRB-associated chronic eosinophilic leukemia - caused by mutations in the PDGFRB gene

Genetic rearrangements (translocations) involving the PDGFRB gene cause a type of cancer of blood-forming cells called PDGFRB-associated chronic eosinophilic leukemia. This condition is characterized by an increased number of eosinophils, a type of white blood cell. The most common of these translocations brings together part of the PDGFRB gene with another gene called ETV6, whose function is to turn off gene activity. Together, these pieces create the ETV6-PDGFRB fusion gene. Occasionally, genes other than ETV6 are fused with the PDGFRB gene. The translocations that lead to these fusion genes are somatic mutations, which are acquired during a person's lifetime and occur initially in a single cell. This cell continues to grow and divide, producing a group of cells with the same mutation (a clonal population).

The protein produced from the ETV6-PDGFRB fusion gene (as well as other PDGFRB fusion genes) functions differently than the proteins normally produced from the individual genes. The ETV6/PDGFRβ fusion protein does not require ligand binding to be activated and cannot bind to DNA to turn off gene activity. As a result, signaling pathways are constantly turned on (constitutively activated) and gene activity is increased, which increases the proliferation and survival of cells.

When the ETV6-PDGFRB fusion gene mutation occurs in cells that develop into blood cells, the growth of eosinophils (and occasionally other white blood cells, such as neutrophils and mast cells) is poorly controlled, leading to PDGFRB-associated chronic eosinophilic leukemia. It is unclear why eosinophils are preferentially affected by this genetic change.

Where is the PDGFRB gene located?

Cytogenetic Location: 5q33.1

Molecular Location on chromosome 5: base pairs 150,113,838 to 150,155,883

The PDGFRB gene is located on the long (q) arm of chromosome 5 at position 33.1.

The PDGFRB gene is located on the long (q) arm of chromosome 5 at position 33.1.

More precisely, the PDGFRB gene is located from base pair 150,113,838 to base pair 150,155,883 on chromosome 5.

See How do geneticists indicate the location of a gene? in the Handbook.

Where can I find additional information about PDGFRB?

You and your healthcare professional may find the following resources about PDGFRB helpful.

You may also be interested in these resources, which are designed for genetics professionals and researchers.

What other names do people use for the PDGFRB gene or gene products?

  • beta-type platelet-derived growth factor receptor
  • CD140 antigen-like family member B
  • CD140B
  • PDGFR1
  • PDGFR-1
  • PDGFR-beta
  • PDGF-R-beta
  • PGFRB_HUMAN
  • platelet-derived growth factor receptor 1
  • platelet-derived growth factor receptor beta

Where can I find general information about genes?

The Handbook provides basic information about genetics in clear language.

These links provide additional genetics resources that may be useful.

What glossary definitions help with understanding PDGFRB?

References (7 links)

 

The resources on this site should not be used as a substitute for professional medical care or advice. Users seeking information about a personal genetic disease, syndrome, or condition should consult with a qualified healthcare professional. See How can I find a genetics professional in my area? in the Handbook.

 
Reviewed: February 2013
Published: July 28, 2014