Why drug development is hard #30 — more new interactions we had no idea existed

We’re full of proteins which bind RNA wrangling it into a desired conformation.  The ribosome (whose enzymatic business end is pure RNA) has a mere 80 proteins doing this.  Its mass is 4,300,000 times that of a hydrogen atom.  However the idea that RNA could return the favor was pretty much unheard of until [ Science vol. 358 pp. 993 – 994, 1051 – 1055 ’17 — http://science.sciencemag.org/content/358/6366/1051 ].

As is often the case, viruses and the RNA world continue to instruct us.  In order to survive, some viruses induce cells to express a long (2,200+ nucleotides) nonCoding (for protein that is) RNA called lncRNA-ACOD1.   It binds to a protein enzyme (called GOT2, for Glutamic acid OxaloAcetic Transaminase 2) increasing its catalytic efficiency.  This shifts cellular metabolism around making it more favorable for virus proliferation, as GOT2 is found in mitochondria being used to replenish tricarboxylic cycle intermediates — e.g. making more energy available to the virus.

lncRNA-ACOD1 is induced by a variety of viruses, most importantly influenza virus in man, and vaccinia, herpes simplex 1, vesicular stomatitis virus in mice.  Exactly how viruses induce it isn’t clear, but the transcription factor NFkappaB is involved.

Viruses continue to teach us.  The amino acids of GOT2 (#15 – #68) and the interacting sequence of nucleotides in lncRNA-ACOD1 (#165 – #390) are well conserved across species.  This might be a primordial mechanism from the RNA world (forgotten but not gone) to produce ATP production to compe with metabolic stress.   The RNA/protein binding site is close (4.2 Angstroms) to the substrate binding site.

The fun is just starting as several other lncRNAs are induced by viruses.  You can only imagine what they will tell us.  Another set of drug targets perhaps, or worse, the cause of peculiar side effects from drugs already in use.

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