Defects in post-translational modification of lysosomal enzymes                                                                                                                                                                                                  digital illustration

Defects in post-translational modification of lysosomal enzymes Save


ICD-10 code: E77.0

Disease category: E77: Disorders of glycoprotein metabolism

Defects in Post-Translational Modification of Lysosomal Enzymes

Lysosomal enzymes play a crucial role in maintaining cellular homeostasis, degrading various macromolecules, and recycling their components. These enzymes undergo post-translational modifications (PTMs) that are essential for their proper functioning. However, defects in PTMs can lead to significant consequences for lysosomal enzyme activity and ultimately result in various lysosomal storage disorders.

1. Impaired Glycosylation: One of the most common defects in PTMs of lysosomal enzymes is impaired glycosylation. Glycosylation refers to the addition of sugar molecules to proteins, which is crucial for their stability, targeting, and enzymatic activity. Inadequate glycosylation can disrupt the proper folding of lysosomal enzymes, rendering them inactive or unstable.

2. Abnormal Phosphorylation: Phosphorylation is another important PTM that regulates the activity of lysosomal enzymes. Abnormal phosphorylation can lead to either hyperactivation or inactivation of these enzymes, disrupting the delicate balance required for proper cellular function. This can result in the accumulation of undegraded substrates and the development of lysosomal storage disorders.

3. Defective Proteolytic Processing: Proteolytic processing involves the removal of specific peptide sequences from precursor proteins to generate the active form of lysosomal enzymes. Defects in this PTM can lead to incomplete processing or the generation of abnormal enzyme isoforms. Consequently, these enzymes may lose their enzymatic activity or exhibit altered substrate specificity.

4. Impaired Trafficking: Proper trafficking of lysosomal enzymes is critical for their localization within the lysosomal compartment. PTMs such as phosphorylation and glycosylation play essential roles in determining the trafficking routes and destinations of these enzymes. Disruptions in PTMs can result in mislocalization or inefficient targeting of lysosomal enzymes, impairing their function.

  1. Impaired glycosylation
  2. Abnormal phosphorylation
  3. Defective proteolytic processing
  4. Impaired trafficking

In conclusion, defects in PTMs of lysosomal enzymes can have severe implications for cellular function and contribute to the development of lysosomal storage disorders. Impaired glycosylation, abnormal phosphorylation, defective proteolytic processing, and impaired trafficking are among the key defects observed. Understanding these defects and their underlying mechanisms is crucial for developing targeted therapeutic strategies to alleviate the burden of lysosomal storage disorders.

Treatment of Defects in post-translational modification of lysosomal enzymes :

Treatment Options for Defects in Post-Translational Modification of Lysosomal Enzymes

Defects in post-translational modification of lysosomal enzymes can lead to various lysosomal storage disorders (LSDs), which are a group of genetic diseases characterized by the accumulation of undigested substances within the lysosomes.

Fortunately, there are several treatment options av...

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