Abstract
Despite realizing increased survival rates for propionic acidemia (PA) and methylmalonic acidemia (MMA) patients, the current therapeutic regimen is inadequate for preventing or treating the devastating complications that still can occur. The elucidation of pathophysiology of these complications allows us to evaluate and rethink treatment strategies. In this review we display and discuss potential therapy targets and we give a systematic overview on current, experimental and unexplored treatment strategies in order to provide insight in what we have to offer PA and MMA patients, now and in the future. Evidence on the effectiveness of treatment strategies is often scarce, since none were tested in randomized clinical trials. This raises concerns, since even the current consensus on best practice treatment for PA and MMA is not without controversy. To attain substantial improvements in overall outcome, gene, mRNA or enzyme replacement therapy is most promising since permanent reduction of toxic metabolites allows for a less strict therapeutic regime. Hereby, both mitochondrial-associated and therapy induced complications can theoretically be prevented. However, the road from bench to bedside is long, as it is challenging to design a drug that is delivered to the mitochondria of all tissues that require enzymatic activity, including the brain, without inducing any off-target effects. To improve survival rate and quality of life of PA and MMA patients, there is a need for systematic (re-)evaluation of accepted and potential treatment strategies, so that we can better determine who will benefit when and how from which treatment strategy.
Highlights
Whereas only a few decades ago patients with propionic acidemia (PA) and methylmalonic acidemia (MMA) had a very poor life expectancy, patients tend to reach adulthood.J Inherit Metab Dis. 2019;42:745–761.wileyonlinelibrary.com/journal/jimd HAIJES ET AL.Next to general advances in clinical care, this has been accomplished through the implementation of a protein-restricted diet, carnitine supplementation and the supplementation of the cofactor cobalamin in MMA
In this review we summarize the biochemical consequences of PA and MMA to display potential therapy targets and we provide a systematic overview on current, experimental and unexplored treatment strategies in PA and MMA in order to provide insight in what we have to offer PA and MMA patients, and in the future
It has been suggested that propionyl-CoA, by inhibiting urea synthesis, prevents the consumption of NADPH which will inhibit the glycine cleavage system. This mechanism may explain the increase of glycine in body fluids of PA and MMA patients,[17,18] it has not been confirmed in other studies
Summary
Whereas only a few decades ago patients with propionic acidemia (PA) and methylmalonic acidemia (MMA) had a very poor life expectancy, patients tend to reach adulthood. To general advances in clinical care, this has been accomplished through the implementation of a protein-restricted diet, carnitine supplementation and the supplementation of the cofactor cobalamin in MMA These therapies were conceived when pathophysiological mechanisms at play in these diseases were recognized.[1,2,3,4]. The enzymes deficient in PA and MMA have an indispensable role in the breakdown of the branched-chain amino acids valine and isoleucine, and threonine and methionine They act in the catabolism of propionyl-CoA that is formed in anaerobic fermentation of carbohydrates by gut bacteria and in the breakdown of odd-chain fatty acids and cholesterol side chains (Figure 1).
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