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Bidirectional Control between Cholesterol Shuttle and Purine Signal at the Central Nervous System.

Daniela PassarellaMaurizio RonciValentina Di LibertoMariachiara ZuccariniGiuseppa MudòCarola PorcileMonica FrinchiPatrizia Di IorioHenning UlrichClaudio Russo
Published in: International journal of molecular sciences (2022)
Recent studies have highlighted the mechanisms controlling the formation of cerebral cholesterol, which is synthesized in situ primarily by astrocytes, where it is loaded onto apolipoproteins and delivered to neurons and oligodendrocytes through interactions with specific lipoprotein receptors. The "cholesterol shuttle" is influenced by numerous proteins or carbohydrates, which mainly modulate the lipoprotein receptor activity, function and signaling. These molecules, provided with enzymatic/proteolytic activity leading to the formation of peptide fragments of different sizes and specific sequences, could be also responsible for machinery malfunctions, which are associated with neurological, neurodegenerative and neurodevelopmental disorders. In this context, we have pointed out that purines, ancestral molecules acting as signal molecules and neuromodulators at the central nervous system, can influence the homeostatic machinery of the cerebral cholesterol turnover and vice versa. Evidence gathered so far indicates that purine receptors, mainly the subtypes P2Y 2 , P2X 7 and A 2A , are involved in the pathogenesis of neurodegenerative diseases, such as Alzheimer's and Niemann-Pick C diseases, by controlling the brain cholesterol homeostasis; in addition, alterations in cholesterol turnover can hinder the purine receptor function. Although the precise mechanisms of these interactions are currently poorly understood, the results here collected on cholesterol-purine reciprocal control could hopefully promote further research.
Keyphrases
  • low density lipoprotein
  • subarachnoid hemorrhage
  • drug delivery
  • cerebrospinal fluid
  • body composition
  • resting state
  • postmenopausal women
  • cancer therapy
  • white matter
  • functional connectivity