Current Opinion on the Use of C-Fos in Neuroscience

Overview

Journal NeuroSci

Specialty Neurology

Date 2024 Nov 1

PMID 39483772

Authors

Sandra Yasbeth Lara Aparicio

Angel de Jesus Laureani Fierro

Gonzalo Emiliano Aranda Abreu

Rebeca Toledo Cardenas

Luis Isauro Garcia Hernandez

Genaro Alfonso Coria Avila

Fausto Rojas Duran

Maria Elena Hernandez Aguilar

Jorge Manzo Denes

Lizbeth Donaji Chi-Castaneda

Cesar Antonio Perez Estudillo

Affiliations

Soon will be listed here.

Abstract

For years, the biochemical processes that are triggered by harmful and non-harmful stimuli at the central nervous system level have been extensively studied by the scientific community through numerous techniques and animal models. For example, one of these techniques is the use of immediate expression genes, which is a useful, accessible, and reliable method for observing and quantifying cell activation. It has been shown that both the gene and its protein c-Fos have rapid activation after stimulus, with the length of time that they remain active depending on the type of stimulus and the activation time depending on the stimulus and the structure studied. Fos requires the participation of other genes (such as ) for its expression (during hetero-dimer forming). c-Fos dimerizes with c-Jun protein to form factor AP-1, which promotes the transcription of various genes. The production and removal of c-Fos is part of cellular homeostasis, but its overexpression results in increased cell proliferation. Although Fos has been used as a marker of cellular activity since the 1990s, which molecular mechanism participates in the regulation of the expression of this protein is still unknown because the gene and the protein are not specific to neurons or glial cells. For these reasons, this work has the objective of gathering information about this protein and its use in neuroscience.

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