Hypusinated and unhypusinated isoforms of eIF5A exert distinct effects in models of pancreas development and function

Hypusination of eukaryotic translation initiation factor 5A (eIF5A) is essential for its role in translation elongation and termination. Although the function of hypusinated eIF5A (eIF5AHyp) in cellular proliferation is well-characterized, the role of its unhypusinated form (eIF5ALys) remains unclear. We hypothesized that eIF5ALys exerts independent effects on cellular replication and metabolism distinct from the loss of eIF5AHyp. To test this hypothesis, we utilized zebrafish and mouse models with inducible knockdowns of deoxyhypusine synthase (DHPS) and eIF5A to investigate their roles in cellular growth. Gene expression analysis via RNA sequencing and morphometric measurements of pancreas and beta-cell mass were performed to assess phenotypic changes and identify affected biological pathways. Loss of DHPS in zebrafish resulted in significant defects in pancreatic growth, accompanied by the dysregulation of mRNA translation, neurogenesis, and stress pathways. By contrast, knockdown of eIF5A had minimal impact on pancreas development, suggesting that the effects of DHPS loss are not solely due to the lack of eIF5AHyp. In mice, beta cell-specific deletion of DHPS impaired beta cell mass expansion and glucose tolerance, while eIF5A deletion had no statistically significant effects. These findings reveal an independent role for eIF5ALys in regulating developmental and functional responses and that a balance in levels of the hypusinated and unhypusinated isoforms of eIF5A may be pivotal in cellular phenotypes in health and disease.