L2-Hga
L-2-HGA
(L-2-hydroxyglutaric aciduria) in Staffordshire Bull Terriers is a neurometabolic disorder characterised by elevated levels
of L-2-hydroxyglutaric acid in urine, plasma and cerebrospinal fluid.
L-2-HGA
affects the central nervous system, with clinical signs usually apparent between 6 months and one year (although they can
appear later). Symptoms include epileptic seizures, “wobbly” gait, tremors, muscle stiffness as a result of exercise
or excitement and altered behaviour.
The
mutation, or change to the structure of the gene, probably occurred spontaneously in a single dog but once in the population
has been inherited from generation to generation like any other gene. The disorder shows an autosomal recessive mode of inheritance:
two copies of the defective gene (one inherited from each parent) have to be present for a dog to be affected by the disease.
Individuals with one copy of the defective gene and one copy of the normal gene - called carriers - show no symptoms but can
pass the defective gene onto their offspring. When two apparently healthy carriers are crossed, 25% (on average) of the offspring
will be affected by the disease, 25% will be clear and the remaining 50% will themselves be carriers.
The
mutation responsible for the disease has recently been identified at the Animal Health Trust. Using the information from this
research, we have developed a DNA test for the disease. This test not only diagnoses dogs affected with this disease but can
also detect those dogs which are carriers, displaying no symptoms of the disease but able to produce affected pups. Carriers
could not be detected by the tests previously available which involved either a blood or urine test detecting elevated levels
of L-2-hydroxyglutarate or magnetic resonance imaging. Under most circumstances, there will be a much greater number of carriers
than affected animals in a population. It is important to eliminate such carriers from a breeding population since they represent
a hidden reservoir of the disease that can produce affected dogs at any time.
The
test is available now and information on submitting samples is given below.
Breeders
will be sent results identifying their dog as belonging to one of three categories:
CLEAR:
the dog has 2 copies of the normal gene and will neither develop L-2-HGA, nor pass a copy of the L-2-HGA gene to any of its
offspring.
CARRIER:
the dog has one copy of the normal gene and one copy of the mutant gene that causes L-2-HGA. It will not develop L-2-HGA but
will pass on the L-2-HGA gene to 50% (on average) of its offspring.
AFFECTED:
the dog has two copies of the L-2-HGA mutation and is affected with L-2-HGA. It will develop L-2-HGA at some stage during
its lifetime, assuming it lives to an appropriate age.
Carriers
can still be bred to clear dogs. On average, 50% of such a litter will be clear and 50% carriers; there can be no affected
produced from such a mating. Pups which will be used for breeding can themselves be DNA tested to determine whether they are
clear or carrier. Courtesy AHT.
Hereditary
Cataracts (also called Juvenile Cataracts)
Hereditary
Cataract in Staffordshire Bull Terriers has been recognised as an inherited condition since the late 1970’s. Affected
dogs develop cataracts in both eyes at an early age. The condition is not congenital, so the lenses are normal at birth but
cataracts appear at a few weeks to months in age, progressing to total cataract (and resulting blindness) by 2 to 3 years
of age.
The
mutation, or change to the structure of the gene, probably occurred spontaneously in a single dog but once in the population
has been inherited from generation to generation like any other gene. The disorder shows an autosomal recessive mode of inheritance:
two copies of the defective gene (one inherited from each parent) have to be present for a dog to be affected by the disease.
Individuals with one copy of the defective gene and one copy of the normal gene - called carriers - show no symptoms but can
pass the defective gene onto their offspring. When two apparently healthy carriers are crossed, 25% (on average) of the offspring
will be affected by the disease, 25% will be clear and the remaining 50% will themselves be carriers.
The
mutation responsible for the disease has recently been identified at the Animal Health Trust. Using the information from this
research, we have developed a DNA test for the disease. This test not only diagnoses dogs affected with the disease but can
also detect those dogs which are carriers, displaying no symptoms of the disease but able to produce affected pups. Under
most circumstances, there will be a much greater number of carriers than affected animals in a population. It is important
to eliminate such carriers from a breeding population since they represent a hidden reservoir of the disease that can produce
affected dogs at any time.
The
test is available now and information on submitting samples is given below.
Breeders
will be sent results identifying their dog as belonging to one of three categories:
CLEAR:
the dog has 2 copies of the normal gene and will neither develop L-2-HGA, nor pass a copy of the L-2-HGA gene to any of its
offspring.
CARRIER:
the dog has one copy of the normal gene and one copy of the mutant gene that causes L-2-HGA. It will not develop L-2-HGA but
will pass on the L-2-HGA gene to 50% (on average) of its offspring.
AFFECTED:
the dog has two copies of the L-2-HGA mutation and is affected with L-2-HGA. It will develop L-2-HGA at some stage during
its lifetime, assuming it lives to an appropriate age.
Carriers
can still be bred to clear dogs. On average, 50% of such a litter will be clear and 50% carriers; there can be no affected
produced from such a mating. Pups which will be used for breeding can themselves be DNA tested to determine whether they are
clear or carrier. Courtesy AHT
How
To Test for L2-HGA and HC.
There
are 2 ways that DNA can be tested either by a swab or a blood sample. Swabs are not as reliable as DNA from blood, but are
much cheaper and less intrusive to the dog.
