Amyloid-beta precursor protein secretase explained

thumb|300px|right|Processing of the amyloid-beta precursor proteinSecretases are enzymes that "snip" pieces off a longer protein that is embedded in the cell membrane.

Among other roles in the cell, secretases act on the amyloid-beta precursor protein (APP) to cleave the protein into three fragments. Sequential cleavage by beta-secretase 1 (BACE) and gamma-secretase (γ-secretase) produces the amyloid-beta peptide fragment that aggregates into clumps called amyloid plaques in the brains affected by Alzheimer's disease.[1] If alpha-secretase (α-secretase) acts on APP first instead of BACE, no amyloid beta is formed because α-secretase recognizes a target protein sequence closer to the cell surface than BACE. The non-pathogenic middle fragment formed by an α/γ cleavage sequence is called P3.

Structure

The structure of the three secretases varies widely.

Function

Besides their involvement in the pathogenesis of Alzheimer's, these proteins also have other functional roles in the cell.

γ-secretase plays a critical role in developmental signalling by the transmembrane receptor Notch, freeing the cytoplasmic tail of Notch to travel to the cell nucleus to act as a transcription factor.

Although BACE cleaves the extracellular domains of several transmembrane proteins, its physiological function remains unknown.

Notes and References

  1. Bhatia . S. . 12 August 2023 . Scaffold Morphing and In Silico Design of Potential BACE-1 (β-Secretase) Inhibitors: A Hope for a Newer Dawn in Anti-Alzheimer Therapeutics . Molecules . Basel, Switzerland . 28 . 16 . 6032 . 10.3390/molecules28166032. free . 37630283 . 10459662 .