Abstract
The human family of ELMO domain-containing proteins (ELMODs) consists of six members and is defined by the presence of the ELMO domain. Within this family are two subclassifications of proteins, based on primary sequence conservation, protein size, and domain architecture, deemed ELMOD and ELMO. In this study, we used homology searching and phylogenetics to identify ELMOD family homologs in genomes from across eukaryotic diversity. This demonstrated not only that the protein family is ancient but also that ELMOs are potentially restricted to the supergroup Opisthokonta (Metazoa and Fungi), whereas proteins with the ELMOD organization are found in diverse eukaryotes and thus were likely the form present in the last eukaryotic common ancestor. The segregation of the ELMO clade from the larger ELMOD group is consistent with their contrasting functions as unconventional Rac1 guanine nucleotide exchange factors and the Arf family GTPase-activating proteins, respectively. We used unbiased, phylogenetic sorting and sequence alignments to identify the most highly conserved residues within the ELMO domain to identify a putative GAP domain within the ELMODs. Three independent but complementary assays were used to provide an initial characterization of this domain. We identified a highly conserved arginine residue critical for both the biochemical and cellular GAP activity of ELMODs. We also provide initial evidence of the function of human ELMOD1 as an Arf family GAP at the Golgi. These findings provide the basis for the future study of the ELMOD family of proteins and a new avenue for the study of Arf family GTPases.
Highlights
ELMO proteins (ELMOs) domain-containing proteins (ELMODs) family proteins function either as Rac guanine nucleotide exchange factors or Arf GTPase-activating proteins
When the cell lysates were assayed in the Arl2 GTPase-activating protein (GAP) assay, we found that each of the arginine to lysine mutations was sufficient to completely ablate the increased GAP activity associated with ELMO domain-containing proteins (ELMODs) expression (Fig. 6A)
Because Arfs localize to the Golgi, and we found earlier that ELMOD1 acts on Arfs in cells, we speculated that its presence at that organelle might be responsible for changes in the organelle itself
Summary
ELMOD family proteins function either as Rac guanine nucleotide exchange factors or Arf GTPase-activating proteins. The human family of ELMO domain-containing proteins (ELMODs) consists of six members and is defined by the presence of the ELMO domain. We identified a highly conserved arginine residue critical for both the biochemical and cellular GAP activity of ELMODs. We provide initial evidence of the function of human ELMOD1 as an Arf family GAP at the Golgi. Considering that ELMODs consist of little more than the ELMO domain itself, it is likely that the GAP activity of these proteins resides within the ELMO domain, but Arl GAP activity was not detected for any of the ELMOs. the defining domain of the family may have distinct cellular and biochemical functions between ELMOs and ELMODs and potentially even within the subgroups. Results of this study offer initial evidence for the function of ELMOD1 as an Arf GAP in cells
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