Donohue Syndrome - Genetics

Genetics

Donohue syndrome is an autosomal recessive genetic disorder. The mutations responsible for the disorder are found on the short arm chromosome 19 (19p13.2) within the coding sequence of the INSR gene (insulin receptor) causing the production of inactive receptor molecules. There are several mutations that can be responsible for the disease, as any mutation that severely impairs the functionality of the insulin receptor will have similar effects. The INSR gene spans over one hundred and twenty thousand base pairs, which contain twenty-two exons coding for a protein that consists of 1382 amino acids. Some of the introns may or may not be spliced out depending on the kind of cell.

Known mutations to the gene which can cause Donohue syndrome include a nonsense mutation that resulted in a frame shift, a single missense mutation and in the milder form mentioned above, a single codon change that altered isoleucine to methionine in the receptor protein. Some mutations to the gene instead result in insulin resistant diabetes without Donohue syndrome.

Because mutations in the gene are extremely rare, most cases result from consanguineous matings, for example, between cousins. However, the exact mutation need not be the same. Disease can be caused by inheritance of two different mutant alleles, one from each parent, in which case the patient is a compound heterozygote.

A heterozygous individual (i.e. one who is a carrier for the disease, having only one normal allele for the insulin receptor) will not be affected. Two heterozygous parents have, in theory, a one in four chance of having a child with the disease, and two thirds of their unaffected children will be carriers. However, because spontaneous abortion (miscarriage) often results when the fetus has the disease, in actuality the proportion of children born alive with Donohue syndrome will be lower than 25%.

It is possible to do a genetic test to identify carriers, but because it is so rare, this is not usually done unless there is reason to suspect that the individual being tested is a carrier, for instance having an affected sibling or cousin. As expected for a genetic disease that can be caused by many different mutations, it is not limited to a specific ethnic group, and has been seen in people of various races.