Herbert J. Santos scite author profile

Entamoeba possesses a highly divergent mitochondrion-related organelle known as the mitosome. Here, we report the discovery of a novel protein in Entamoeba, which we name Mitosomal β-barrel Outer Membrane Protein of 30 kDa (MBOMP30). Initially identified through in silico analysis, we experimentally confirmed that MBOMP30 is indeed a β-barrel protein. Circular dichroism analysis showed MBOMP30 has a predominant β-sheet structure. Localization to Entamoeba histolytica mitosomes was observed through Percoll-gradient fractionation and immunofluorescence assay. Mitosomal membrane integration was demonstrated by carbonate fractionation, proteinase K digestion, and immunoelectron microscopy. Interestingly, the deletion of the putative β-signal, a sequence believed to guide β-barrel outer membrane protein (BOMP) assembly, did not affect membrane integration, but abolished the formation of a ~240 kDa complex. MBOMP30 represents only the seventh subclass of eukaryotic BOMPs discovered to date and lacks detectable homologs outside Entamoeba, suggesting that it may be unique to Entamoeba mitosomes.

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Screening and discovery of lineage-specific mitosomal membrane proteins in Entamoeba histolytica

Santos

Imai

Hanadate

et al. 2016

Molecular and Biochemical Parasitology

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Entamoeba histolytica, an anaerobic intestinal parasite causing dysentery and extra-intestinal abscesses in humans, possesses highly reduced and divergent mitochondrion-related organelles (MROs) called mitosomes. This organelle lacks many features associated with canonical aerobic mitochondria and even other MROs such as hydrogenosomes. The Entamoeba mitosome has been found to have a compartmentalized sulfate activation pathway, which was recently implicated to have a role in amebic stage conversion. It also features a unique shuttle system via Tom60, which delivers proteins from the cytosol to the mitosome. In addition, only Entamoeba mitosomes possess a novel subclass of β-barrel outer membrane protein called MBOMP30. With the discoveries of such unique features of mitosomes of Entamoeba, there still remain a number of significant unanswered issues pertaining to this organelle. Particularly, the present understanding of the inner mitosomal membrane of Entamoeba is extremely limited. So far, only a few homologs for transporters of various substrates have been confirmed, while the components of the protein translocation complexes appear to be absent or are yet to be discovered. Employing a similar strategy as in our previous work, we collaborated to screen and discover mitosomal membrane proteins. Using a specialized prediction pipeline, we searched for proteins possessing α-helical transmembrane domains, which are unique to E. histolytica mitosomes. From the prediction algorithm, 25 proteins emerged as candidates, two of which were initially observed to be localized to the mitosomes. Further screening and analysis of the predicted proteins may provide clues to answer key questions on mitosomal evolution, biogenesis, dynamics, and biochemical processes.

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Herbert J. Santos

Reinventing an Organelle: The Reduced Mitochondrion in Parasitic Protists

A Novel Mitosomal β-Barrel Outer Membrane Protein in Entamoeba

Screening and discovery of lineage-specific mitosomal membrane proteins in Entamoeba histolytica

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