Tag Archives: taurursodiol

Under the hood

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In response to a reader’s request, here’s a brief description of the mechanism of action of Relyvrio, which is a combination of two drugs, sodium phenylbutyrate and taurursodiol.  The text in bold italics below is copied verbatim from the supplementary material attached to the publication reporting the results of the first ALS trial.  The same explanation applies to PSP and other neurodegenerative diseases. You may feel that any treatment that claims to address all of those complex diseases is claiming too much, and you could be right. But stranger things have happened. If you want more scientific detail, see the five references below. Note that Reference 5 discusses release of cytochrome C from mitochondria. That’s a cell signalling compound that causes cells to start up their “suicide machine,” more formally called the apoptotic pathway. Cells undergo apoptosis when they’re not working well or as a normal “pruning” procedure during growth and development. Taurursodiol prevents that from happening as easily.

Endoplasmic reticulum stress or dysfunction associated with protein misfolding and aggregation has been implicated in the pathogenesis of ALS,[1] as has disruption of mitochondrial function and structure.[2] Sodium phenylbutyrate is a histone deacetylase inhibitor that has been shown to upregulate heat shock proteins and act as a small molecular chaperone, thereby ameliorating toxicity from endoplasmic reticulum stress.[3,4] Taurursodiol recovers mitochondrial bioenergetic deficits through several mechanisms, including by preventing translocation of the Bax protein into the mitochondrial membrane, thus reducing mitochondrial permeability and increasing the apoptotic threshold of the cell.[5]

1. Jaronen M, Goldsteins G, Koistinaho J. ER stress and unfolded protein response in amyotrophic lateral sclerosis—a controversial role of protein disulphide isomerase. Front Cell Neurosci 2014;8:402.

2. Mehta AR, Walters R, Waldron FM, et al. Targeting mitochondrial dysfunction in amyotrophic lateral sclerosis: A systematic review and meta-analysis. Brain Commun 2019;1:fcz009.

3. Kaur B, Bhat A, Chakraborty R, et al. Proteomic profile of 4-PBA treated human neuronal cells during ER stress. Mol Omics 2018;14:53-63.

4. Suaud L, Miller K, Panichelli AE, Randell RL, Marando CM, Rubenstein RC. 4-Phenylbutyrate stimulates Hsp70 expression through the Elp2 component of elongator and STAT-3 in cystic fibrosis epithelial cells. J Biol Chem 2011;286:45083-92.

5. Rodrigues CM, Solá S, Sharpe JC, Moura JJ, Steer CJ. Tauroursodeoxycholic acid prevents Bax- induced membrane perturbation and cytochrome C release in isolated mitochondria. Biochemistry 2003;42:3070-80.

It’s awards season

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A caregiver has asked me, as CurePSP’s Chief Clinical Officer, to list the most important clinical research advances in PSP of 2023. Happy to oblige. Here are my top five in no particular order. 

  • The FDA approved a combination of two drugs called taurursodiol and sodium phenylbutyrate with the brand name “Relyvrio” for use in amyotrophic lateral sclerosis (ALS; Lou Gehrig disease).  A trial in PSP has already started to recruit patients.  The drugs address an issue in the mitochondria shared by the two diseases in different sets of neurons.
  • Tau PET ligand APN-1607 received go-ahead from the FDA to proceed to a pivotal Phase 3 trial.  Such a trial began recruitment in December in the US and will involve multiple other countries as well.  The compound would allow a diagnosis of PSP in early or equivocal cases by being taken up by the abnormal tau protein in the brain and imaged.
  • A drug called TPN-101 was found to be safe and well-tolerated in a Phase 1 trial of 30 patients with PSP.  The drug counters inflammation in the brain by reducing the transcription of ancient viral DNA in our genome.  Next is a small trial for efficacy.
  • A simple, remote, gait-monitoring system with only three sensors proved able to distinguish the gaits of PSP and PD.  Further testing for its ability to document progression or improvement will follow.
  • PET imaging of frontal lobe synapses showed good correlation with the PSP Rating Scale and with the results of cognitive testing.  This is different from typical PET in neurodegenerative disease, which images glucose utilization or protein aggregates.  The work suggests that synaptic imaging could be a good diagnostic marker in the earliest, pre-symptomatic stages of PSP.

But the most important piece of news is that several drug companies are planning to start clinical treatment trials in the next year or two. I’ll report on all that as it happens.