Abstract
We describe a novel type of ribosomopathy that is defined by deficiency in diphthamidylation of translation elongation factor 2. The ribosomopathy was identified by correlating phenotypes and biochemical properties of previously described patients with diphthamide biosynthesis gene 1 (DPH1) deficiencies with a new patient that carried inactivating mutations in both alleles of the human diphthamide biosynthesis gene 2 (DPH2). The human DPH1 syndrome is an autosomal recessive disorder associated with developmental delay, abnormal head circumference (microcephaly or macrocephaly), short stature, and congenital heart disease. It is defined by variants with reduced functionality of the DPH1 gene observed so far predominantly in consanguineous homozygous patients carrying identical mutant alleles of DPH1. Here we report a child with a very similar phenotype carrying biallelic variants of the human DPH2. The gene products DPH1 and DPH2 are components of a heterodimeric enzyme complex that mediates the first step of the posttranslational diphthamide modification on the nonredundant eukaryotic translation elongation factor 2 (eEF2). Diphthamide deficiency was shown to reduce the accuracy of ribosomal protein biosynthesis. Both DPH2 variants described here severely impair diphthamide biosynthesis as demonstrated in human and yeast cells. This is the first report of a patient carrying compound heterozygous DPH2 loss-of-function variants with a DPH1 syndrome-like phenotype and implicates diphthamide deficiency as the root cause of this patient’s clinical phenotype as well as of DPH1-syndrome. These findings define “diphthamide-deficiency syndrome” as a special ribosomopathy due to reduced functionality of components of the cellular machinery for eEF2-diphthamide synthesis.
Highlights
Diphthamide on eukaryotic elongation factor 2 is a highly conserved posttranslational modification [1]
We report here the first human phenotype associated with biallelic loss-of-function of diphthamide biosynthesis gene 2 (DPH2), a human gene involved in diphthamide modification of eukaryotic elongation factor 2 (eEF2) [27]
Loss of diphthamide modification of eEF2 was documented in this case in vitro as was observed for diphthamide biosynthesis gene 1 (DPH1) mutations found in patients with DPH1 syndrome
Summary
Diphthamide on eukaryotic elongation factor 2 (eEF2) is a highly conserved posttranslational modification [1]. While eEF2 function for ribosomal translocation is essential for mRNA translation and de novo protein synthesis, the physiological function of the diphthamide moiety is not fully understood [2]. Diphthamide may modulate translational decisions at paused ribosomes (stall vs continuation vs termination). Loss of diphthamide influences the expression levels of tRNA aminoacyl synthetases and importantly, affects the expression of selenoproteins via reduced selenocysteine incorporation at recoded SECIS-UGA codons [7]. Diphthamide deficiency correlates with preinduction of stress pathways and gene signatures in mammalian cells, including those associated with oxidative stress responses [7] and nuclear factor of kappa light polypeptide gene enhancer in B cells (NF-κB)—transcript signatures and tumor necrosis factor-mediated pathways [8]
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