STING and VDAC inhibitors attenuate inflammation and ineffective erythropoiesis caused by an altered metabolome in the Nan (EKLF/E339D) mouse model of neonatal anemia

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Abstract

SUMMARY Erythroid Krüppel-like factor (EKLF/KLF1) is an essential transcriptional regulator of all aspects of erythropoiesis. The mouse neonatal anemia ( Nan ) mutation is driven by a semi-dominant mutation in one allele of the EKLF second Zn-finger at position E339D. RNA-seq analysis of Nan/+ erythroid cells showed that expression of numerous enzymes associated with metabolic pathways are changed as a result. We assessed and analyzed the effects of this dysregulation by mass spectrometry of embryonic and adult material. Our results show that mono-allelic expression of Nan-EKLF has profound impacts on erythroid cell metabolism: levels of amino acids, nucleotides, and metabolites are altered, more energy is needed for survival and proliferation, and glucose is taken up more rapidly. As a result, mitochondrial morphology is distorted, leading to VDAC1 oligomerization and mtDNA release to the cytosol. This activates the cGAS-STING signaling pathway and induces a type-I IFN response that drives inflammation. Use of STING or VDAC inhibitors alleviates these conditions both ex vivo and in vivo . Mechanistically, treatment restores normal erythroid cell divisions and differentiation, and decreases inflammatory pathways in the bone marrow. Our findings are likely directly relevant to the dyserythropoiesis observed in CDA type IV patients that carry a similar mutation.

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