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Alport Syndrome – Types, Causes and Treatment

What is Alport Syndrome?

Alport syndrome is a genetic illness that affects the functioning of the kidneys, eyes, and ears. It affects the collagen type IV in the body, which prevents these organs from functioning naturally. Also, it damages the glomeruli in the kidneys, which prevents the filtering of wastes from the blood. If not treated in time, the disease may cause damage to the kidneys at the subsequent stages. In medical terms, this stage is called ESRD (End Stage Renal Disease).

Those who are affected with Alport syndrome experience issues with hearing either in the final stage of their childhood or the beginning of their teenage. The disease also negatively impacts their power of visibility by altering the size of their eye lens or by causing myopia or cataract. Individuals may also develop flecks in their eyes. However, they do not cause complete blindness. Compared to females, the illness affects more males, due to which they (men) develop severe complications. But it is frequent only in one out of 5,000-10,000 individuals.

History of Alport Syndrome

It is named after British doctor A. Cecil Alport, who in 1927 described three generations of a family in which multiple individuals exhibited progressive kidney disease and hearing loss. Dr. Alport also observed that blood in the urine (hematuria) was the most common symptom and that males were affected more severely than females. After Dr. Alport’s observations, many more families were described and the disease was named Alport syndrome in 1961.

Types and causes

It is primarily a genetic disorder caused by mutations in genes that encode for type IV collagen, a crucial component of basement membranes in various tissues, including the kidney, inner ear, and eye. The primary genes associated with Alport syndrome are COL4A3, COL4A4, and COL4A5. These genes provide instructions for making different chains of type IV collagen. Mutations in these genes can result in the defective production and assembly of type IV collagen, leading to the characteristic abnormalities seen in Alport syndrome.

The inheritance pattern can vary, and there are three main forms:

  1. X-Linked Alport Syndrome (XLAS): This form is the most common and is caused by mutations in the COL4A5 gene, which is located on the X chromosome. XLAS primarily affects males, who have only one X chromosome, but females can also be carriers or affected if they have one abnormal X chromosome.
  2. Autosomal Recessive Alport Syndrome (ARAS): ARAS is caused by mutations in both copies of either the COL4A3 or COL4A4 gene, which are located on autosomal chromosomes (non-sex chromosomes). Both males and females can be affected by ARAS.
  3. Autosomal Dominant Alport Syndrome (ADAS): ADAS results from mutations in one copy of either the COL4A3 or COL4A4 gene. It tends to be milder than XLAS or ARAS, and individuals with ADAS often have a slower disease progression. Both males and females can be affected by ADAS.

In all forms, the underlying cause is genetic mutations affecting the production and structure of type IV collagen, leading to the characteristic kidney, ear, and eye problems associated with the condition. Genetic testing can be used to identify the specific genetic mutations responsible for Alport syndrome in an individual.

Epidemiology

It has an incidence of approximately 1 in 50,000 newborns, with a higher likelihood of symptomatic cases in males compared to females. In the United States, it is estimated that 30,000 to 60,000 individuals are affected by this disorder. In the US, the overall prevalence of end-stage renal disease (ESRD) is around 3% in children and 0.2% in adults. It specifically contributes to about 2.2% of ESRD cases in children and 0.2% in adults in the United States. In Europe, it accounts for 0.6% of ESRD cases.

The common X-linked variant of Alport syndrome, which leads to ESRD, predominantly affects males. However, the X-linked form of the condition also affects nearly as many females, although they often go undiagnosed. Nonetheless, around 15% to 30% of affected women eventually experience renal failure by the age of 60, along with hearing loss in middle age. It is a significant contributor to chronic kidney disease (CKD), resulting in ESRD primarily in adolescents and young adults. It is responsible for 1.5% to 3.0% of children undergoing renal replacement therapies in both Europe and the US.

Pathophysiology of Alport Syndrome

It is characterized by impaired production and deposition of collagen 4 α345 network in the basement membranes of the glomerulus, cochlea (inner ear), and eye. Autosomal recessive Alport syndrome (ARAS) results from mutations in both alleles of COL4A3 and COL4A4, while autosomal dominant Alport syndrome (ADAS) is caused by heterozygous mutations. Next-generation sequencing (NGS) has shown that ADAS accounts for a greater number of cases and progresses more slowly to end-stage renal disease (ESRD) with fewer extra-renal manifestations compared to X-linked Alport syndrome (XLAS). In Alport syndrome, the glomerular basement membrane (GBM) is more susceptible to proteolytic injury, leading to the activation of adhesion kinase in podocytes, endothelin receptors, glomerular inflammation, tubulointerstitial fibrosis, and ESRD. The primary pathology varies between XLAS and ARAS/ADAS, with XLAS affecting the noncollagenous (NC1) C-terminal of the alpha-5 chain, while ARAS and ADAS affect the alpha-3 or alpha-4 chains.

During kidney development, alpha-1 and alpha-2 chains predominate in the GBM, but with maturation, alpha-3, alpha-4, and alpha-5 chains become dominant through isotype switching. Abnormalities in any of these chains, as seen in Alport syndrome, disrupt the collagen network formation, leading to improper incorporation of other collagen chains. XLAS is characterized by developmental arrest in the isoform switching of type IV collagen, retaining the fetal distribution of alpha-1 and alpha-2 isoforms while lacking alpha-3, alpha-4, and alpha-5 isoforms. This abnormal retention of alpha-1 and alpha-2 isoforms makes the GBM susceptible to proteolytic enzymes, causing basement membrane damage.

Additionally, patients with this syndrome who develop anti-GBM nephritis have circulating antibodies targeting specific collagen chains, which differ in XLAS and ARAS patients and can affect transplanted kidneys but not native ones. Posttransplant anti-GBM nephritis in Alport syndrome presents with rapidly progressive glomerulonephritis but does not involve lung hemorrhage, as observed in de novo anti-GBM nephritis. Treatment options for posttransplant anti-GBM nephritis include plasmapheresis, cyclophosphamide (often unsuccessful), and in some cases, intravenous immunoglobulins along with plasmapheresis.

Symptoms of Alport Syndrome

Below is a list of symptoms associated with Alport Syndrome. Not all will be present, and some symptoms will only show up as the disease progresses. But in all cases, the kidneys will be affected. You should make a list of any symptoms you suspect and provide them to your physician. These, along with the test results, will help to confirm the diagnosis, and provide for a more effective treatment plan.

Some of the symptoms may include:

Risk factors of Alport Syndrome

The primary risk factor is having a family history of the condition, as it is a genetic disorder. The risk factors associated include:

  1. Family History: If someone in your family has Alport syndrome, you might be at risk because it’s a genetic condition that can be passed down.
  2. Gender: If you’re a male, you could be more severely affected by Alport syndrome if you inherit the gene mutation. Females can also be affected but often less severely.
  3. Genetic Mutations: The specific changes in certain genes (COL4A3, COL4A4, COL4A5) can determine how Alport syndrome affects you.
  4. Advanced Paternal Age: Older fathers may have a slightly higher chance of passing on new gene mutations that cause Alport syndrome to their children.
  5. Consanguinity: If close relatives in your family have children together (like cousins marrying), it can increase the risk of having children with Alport syndrome, especially if both carry the gene mutations.

Remember, Alport syndrome is not very common, but if you have concerns or a family history of the condition, talking to a doctor or genetic counselor can help you understand your risk and make informed decisions. Early diagnosis and care are important for managing the condition.

Complications of Alport Syndrome

It affects multiple organ systems. It can lead to the following complications:

Diagnosis and test

If you have microscopic hematuria or chronic kidney disease, a healthcare provider may raise Alport syndrome as a concern. If you have a biological family history of Alport syndrome, screenings can help diagnose it. If no one in your family has Alport syndrome, a provider can diagnose you based on your history and additional testing.

A healthcare provider will examine your symptoms and ask about your biological family history. A variety of tests can also help a provider diagnose Alport syndrome. These tests include:

How to treat Alport Syndrome?

The treatment for Alport syndrome primarily focuses on managing its symptoms and complications, particularly kidney-related issues. The specific treatment approach can vary depending on the severity of the condition and the individual’s needs. Here are some common treatments and management strategies for Alport syndrome:

Blood Pressure Control

High blood pressure (hypertension) is a common complication of Alport syndrome. Controlling blood pressure through lifestyle modifications (such as dietary changes and exercise) and medication is essential to protect the kidneys and slow down the progression of kidney damage.

Proteinuria Management

Alport syndrome often leads to proteinuria (the presence of excess protein in the urine). Medications called angiotensin-converting enzyme (ACE) inhibitors or angiotensin receptor blockers (ARBs) are commonly prescribed to reduce proteinuria and protect the kidneys from further damage.

Monitoring Kidney Function

Regular monitoring of kidney function is crucial. This includes blood tests to assess kidney function and urine tests to check for proteinuria. Monitoring helps detect any decline in kidney function early, allowing for timely interventions.

Dietary Management

A kidney-friendly diet, often low in salt and protein, may be recommended to reduce the workload on the kidneys and manage blood pressure.

Hearing Aids and Cochlear Implants

For individuals with hearing impairment due to Alport syndrome, hearing aids or cochlear implants may be recommended to improve hearing.

Eye Care

Regular eye exams can help identify and manage eye-related complications of Alport syndrome, such as cataracts or retinal abnormalities.

Kidney Transplant

In advanced stages of kidney disease (end-stage renal disease or ESRD), a kidney transplant may be necessary to replace the damaged kidneys. Transplants can significantly improve the quality of life and survival for individuals with ESRD.

Genetic Counselling

Genetic counselling can be valuable for individuals with Alport syndrome and their families. It helps in understanding the genetic inheritance pattern and making informed decisions about family planning.

Clinical Trials

Some individuals with Alport syndrome may choose to participate in clinical trials to access experimental treatments and contribute to the advancement of Alport syndrome research.

It’s important for individuals with Alport syndrome to work closely with healthcare providers, including nephrologists (kidney specialists), audiologists (hearing specialists), and ophthalmologists (eye specialists), to develop a personalized treatment plan that addresses their specific needs and helps manage the condition effectively.

Medications to slow the progression of damage to the kidneys

If you develop signs that suggest your kidneys are being damaged, your physician may recommend that you start medications that slow the progression of kidney damage. These include:

Further medications and lifestyle changes

If kidney damage occurs to the point that you begin experiencing high blood pressure or swelling of the body, likely due to imbalanced minerals in the blood, your physician can recommend various medications and lifestyle changes to relieve the symptoms. These include:

Prevention of Alport Syndrome

You can’t prevent Alport syndrome, but being aware of your family history can help you detect it early. Awareness can also help prevent you from passing it on to your biological child.

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