ANO5


Anoctamin 5 is a protein that in humans is encoded by the ANO5 gene.

Function

The ANO5 gene provides instructions for making a protein called anoctamin-5. While the specific function of this protein is not well understood, it belongs to a family of proteins, called anoctamins, that act as chloride channels. Chloride channels, which transport negatively charged chlorine atoms in and out of cells, play a key role in a cell's ability to generate and transmit electrical signals. Most anoctamin proteins function as chloride channels that are turned on in the presence of positively charged calcium atoms ; these channels are known as calcium-activated chloride channels. The mechanism for this calcium activation is unclear. Anoctamin proteins are also involved in maintaining the membrane that surrounds cells and repairing the membrane if damaged.
The anoctamin-5 protein is most abundant in muscles used for movement. For the body to move normally, skeletal muscles must tense and relax in a coordinated way. The regulation of chloride flow within muscle cells plays a role in controlling muscle contraction and relaxation.
The anoctamin-5 protein is also found in other cells including heart muscle cells and bone cells. The anoctamin-5 protein may be important for the development of muscle and bone before birth.

Diseases associated with ANO5 mutations

Limb Girdle Muscular Dystrophy 2L and Miyoshi Distal Myopathy 3
These forms of muscular dystrophy are inherited in an autosomal recessive pattern, meaning that to be affected a person must have mutations on both copies of the gene, and males and females are equally likely to be affected.
Clinically, LGMD2L and MMD3 were considered different diseases before ANO5 was identified as the responsible gene; LGMD was used to describe initial weakness in proximal muscles while MMD to describe initial weakness in distal muscles.

Typical Symptoms

Other names for this gene

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