Cystic fibrosis transmembrane conductance regulator (CFTR) is an ABC transporter-class protein and ion channel that transports chloride ions across epithelial cell membranes. Mutations of the CFTR gene affect functioning of the chloride ion channels in these cell membranes, leading to cystic fibrosis and congenital absence of the vas deferens.

Structure

The gene that encodes for CFTR is found on the human chromosome 7, on the long arm at position q31.2. It contains about 170,000 base pairs. The encoded CFTR is a glycoprotein with 1480 amino acids. The protein consists of five domains. There are two transmembrane domains, each with six spans of alpha helices. These are each connected to a nucleotide binding domain (NBD) in the cytoplasm. These two nucleotide binding folds are linked to a single regulatory R-domain that is a unique feature belonging only to this type of ABC protein. The ion channel only opens when its R-domain has been phosphorylated by PKA and two molecules of ATP have bound to the two NBFs.^[1] The carboxyl terminal of the protein is anchored to the cytoskeleton by a PDZ domain interaction.^[2]

Function

The CFTR is found in the epithelial cells of many organs including the lung, liver, pancreas, digestive tract, reproductive tract, and skin. Normally, the protein moves chloride ions (with a negative charge) out of an epithelial cell to the covering mucus. This results in an electrical gradient being formed and in the movement of (positively charged) sodium ions in the same direction as the chloride via a paracellular pathway. Due to this movement, the water potential of the mucus is reduced, resulting in the movement of water here by osmosis and a more fluid mucus.

In sweat glands, CFTR defects result in reduced transport of sodium chloride in the reabsorptive duct and saltier sweat. This was the basis of a clinically important sweat test for cystic fibrosis before genetic screening was available ( see The Relevance of Sweat Testing for the Diagnosis of Cystic Fibrosis in the Genomic Era).

Mutations

The most common mutation, ?F508 results from a deletion (?) of three nucleotides which results in a loss of the amino acid phenylalanine (F) at the 508th (508) position on the protein. As a result the protein does not fold normally and is more quickly degraded.

The vast majority of mutations are quite rare. The distribution and frequency of mutations varies among different populations which has implications for genetic screening and counseling.

Mutations consist of replacements, duplications, deletions or shortenings in the CFTR gene. This may result in proteins that may not function, work less effectively, are more quickly degraded, or are present in inadequate numbers..^[3]

It has been hypothesized that mutations in the CFTR gene may confer a selective advantage to heterozygous individuals. Cells expressing a mutant form of the CFTR protein are resistant to invasion by the Salmonella typhii bacterium, the agent of typhoid fever, and mice carrying a single copy of mutant CFTR are resistant to diarrhea caused by cholera toxin.

List of common mutations

The most common mutations in a Caucasian population are: ^[4]

• ?F508
• G542X
• G551D
• N1303K
• W1282X

References

Further reading

External links

• The Cystic Fibrosis Transmembrane Conductance Regulator Protein
• The Human Gene Mutation Database - CFTR Records
• Cystic Fibrosis Mutation Database
• Oak Ridge National Laboratory CFTR Information
• CFTR at OMIM (National Center for Biotechnology Information)

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