Nonclassic eicosanoid

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Detailed article on nonclassic eicosanoids




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Nonclassic eicosanoids are a diverse group of bioactive lipid mediators derived from the oxidation of polyunsaturated fatty acids (PUFAs), primarily arachidonic acid, but also from other PUFAs such as eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA). Unlike the classic eicosanoids, which include prostaglandins, thromboxanes, and leukotrienes, nonclassic eicosanoids encompass a broader range of molecules with distinct biological activities and mechanisms of action.

Biosynthesis

Nonclassic eicosanoids are synthesized through various enzymatic and non-enzymatic pathways. The enzymatic pathways involve the action of cytochrome P450 enzymes, lipoxygenases, and epoxygenases, while non-enzymatic pathways include free radical-catalyzed peroxidation.

Enzymatic Pathways

  • Cytochrome P450 Pathway: This pathway involves the metabolism of arachidonic acid by cytochrome P450 enzymes to produce epoxyeicosatrienoic acids (EETs), which are important in the regulation of vascular tone and inflammation.
  • Lipoxygenase Pathway: Lipoxygenases convert arachidonic acid into hydroxy and hydroperoxy derivatives, such as 12-HETE and 15-HETE, which have roles in cell signaling and inflammation.
  • Epoxygenase Pathway: This pathway leads to the formation of epoxy fatty acids, which have been implicated in anti-inflammatory and vasodilatory processes.

Non-Enzymatic Pathways

  • Free Radical-Catalyzed Peroxidation: This process results in the formation of isoprostanes, which are markers of oxidative stress and have potent vasoconstrictive properties.

Biological Functions

Nonclassic eicosanoids play crucial roles in various physiological and pathological processes, including:

  • Inflammation: They can act as pro-inflammatory or anti-inflammatory mediators, depending on the specific eicosanoid and the context of its production.
  • Vascular Function: Some nonclassic eicosanoids, such as EETs, are involved in the regulation of blood pressure and vascular homeostasis.
  • Cell Signaling: They participate in intracellular signaling pathways that influence cell proliferation, apoptosis, and differentiation.
  • Oxidative Stress: Isoprostanes, as products of lipid peroxidation, serve as biomarkers for oxidative stress and have been linked to various diseases.

Clinical Implications

The study of nonclassic eicosanoids has significant clinical implications, particularly in the context of cardiovascular diseases, inflammatory disorders, and cancer. Understanding their roles and mechanisms can lead to the development of novel therapeutic strategies targeting these pathways.

Research Directions

Ongoing research is focused on elucidating the precise mechanisms of action of nonclassic eicosanoids, their interactions with other signaling molecules, and their potential as therapeutic targets. Advances in analytical techniques, such as mass spectrometry, have facilitated the identification and quantification of these molecules in biological samples.

Also see


Eicosanoids
Precursor
Prostanoids
Leukotrienes (LT)
Eoxins (EX)
Nonclassic



Metabolism, catabolism, anabolism
General
Energy
metabolism
Specific
paths


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Contributors: Prab R. Tumpati, MD