Author:
Hansen Jens,Yadaw Arjun Singh,Siddiq Mustafa M.,Tolentino Rosa,Rabinovich Vera,Jayaraman Gomathi,Jain Mohit,Liu Tong,Li Hong,Goldfarb Joseph,Iyengar Ravi
Abstract
AbstractNeurite outgrowth is an integrated whole cell response regulated by cannabinoid-1 receptor. To understand underlying mechanisms, we identified subcellular processes (SCPs) and their interactions required for the response. Differentially expressed genes and proteins upon receptor stimulation of neuronal cells were used informatically to build networks of SCPs and their interactions. From SCP networks we identified additional genes, which when ablated validated the SCP involvement in neurite outgrowth. The experiments and informatics analyses identified diverse SCPs such as those involved in pyrimidine metabolism, lipid biosynthesis, mRNA splicing and stability along with membrane vesicle and microtubule dynamics. We find that SCPs required for neurite outgrowth are widely distributed among constitutive cellular functions. Several of these SCPs are deep since they are distal to cell signaling pathways and proximal SCPs involved in microtubule growth and membrane vesicle dynamics. We conclude that receptor regulation of SCPs for neurite outgrowth is distributed and deep.
Publisher
Cold Spring Harbor Laboratory
Reference69 articles.
1. Alberts, B. , A. Johnson , J. Lewis , D. Morgan , M. Raff , K. Roberts & P. Walter . 2015. Molecular Biology of the Cell. Garland Science, Taylor & Francis Group.
2. Neuronal polarity: from extracellular signals to intracellular mechanisms
3. Berg, J. M. , J. L. Tymoczko , G. J. Gatto & L. Stryer . 2015. Biochemistry. W. H. Freeman and Company.
4. Phosphatidylcholine as a precursor of choline for acetylcholine synthesis;J Neural Transm Suppl,1987
5. Synthesis of acetylcholine from choline derived from phosphatidylcholine in a human neuronal cell line.