Mouse models of Down syndrome
Mouse Models of Down Syndrome
Mouse models of Down syndrome are genetically engineered mice that are used to study the genetic and phenotypic characteristics of Down syndrome, a genetic disorder caused by the presence of an extra copy of chromosome 21 in humans. These models are crucial for understanding the pathophysiology of the disorder and for developing potential therapeutic interventions.
Background
Down syndrome is the most common chromosomal disorder, characterized by intellectual disability, distinct facial features, and various health issues. The condition is caused by trisomy of human chromosome 21. To study this complex disorder, researchers have developed mouse models that carry extra copies of genes found on human chromosome 21.
Development of Mouse Models
The development of mouse models for Down syndrome involves the identification and manipulation of mouse chromosomes that are syntenic to human chromosome 21. The most commonly used mouse models include:
- Ts65Dn - This is one of the most widely used models. It carries a segmental trisomy of mouse chromosome 16, which is homologous to a portion of human chromosome 21.
- Tc1 - This model carries a freely segregating copy of human chromosome 21, providing a more comprehensive representation of the human condition.
- Dyrk1A - Mice overexpressing the Dyrk1A gene, which is located on chromosome 21, are used to study specific aspects of Down syndrome, such as cognitive deficits.
Phenotypic Characteristics
Mouse models of Down syndrome exhibit a range of phenotypic characteristics that mimic those seen in humans with the condition. These include:
- Cognitive impairment - Many models show deficits in learning and memory, which are hallmarks of Down syndrome.
- Craniofacial abnormalities - Some models exhibit facial features similar to those seen in humans with Down syndrome.
- Cardiac defects - Certain models develop heart defects, which are common in individuals with Down syndrome.
Research Applications
Mouse models are invaluable for:
- Understanding the genetic basis of Down syndrome by identifying the contribution of specific genes to the phenotype.
- Testing potential therapies - These models are used to evaluate the efficacy of pharmacological and genetic interventions aimed at alleviating symptoms of Down syndrome.
- Studying comorbid conditions - Researchers use these models to study conditions that frequently co-occur with Down syndrome, such as Alzheimer's disease.
Limitations
While mouse models provide significant insights, they have limitations:
- Genetic differences - Mice and humans have different genetic backgrounds, which can affect the translation of findings.
- Incomplete representation - No single model fully recapitulates all aspects of Down syndrome.
Related Pages
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Contributors: Prab R. Tumpati, MD
