Please use this identifier to cite or link to this item:
Title: Questions on unusual Mimivirus-like structures observed in human cells
Authors: Lusi, Elena Angela
Maloney, Dan
Caicci, Federico 
Guarascio, Paolo
Keywords: Mimiviruses;histone H4;human cell structure;polydnaviruses;retroviral antigen
Issue Date: 2017
Journal: F1000Research 
Background: Mimiviruses or giant viruses that infect amoebas have the ability to retain the Gram stain, which is usually used to colour bacteria. There is some evidence suggesting that Mimiviruses can also infect human cells. Guided by these premises, we performed a routine Gram stain on a variety of human specimens to see if we could detect the same Gram positive blue granules that identify Mimiviruses in the amoebas.  Methods: We analysed 24 different human specimens (liver, brain, kidney, lymph node and ovary) using Gram stain histochemistry, electron microscopy immunogold, high resolution mass spectrometry and protein identification.  Results: We detected in the human cells Gram positive granules that were distinct from bacteria. The fine blue granules displayed the same pattern of the Gram positive granules that diagnose Mimiviruses in the cytoplasm of the amoebas. Electron microscopy confirmed the presence of human Mimiviruses-like structures and mass spectrometry identified histone H4 peptides, which had the same footprints as giant viruses. However, some differences were noted: the Mimivirus-like structures identified in the human cells were ubiquitous and manifested a distinct mammalian retroviral antigenicity.  Conclusions: Our main hypotheses are that the structures could be either giant viruses having a retroviral antigenicity or ancestral cellular components having a viral origin. However, other possible alternatives have been proposed to explain the nature and function of the newly identified structures.
ISSN: 2046-1402
DOI: 10.12688/f1000research.11007.1
Appears in Collections:Articles

Show full item record

PubMed Central
Citations 50

Last Week
Last month
checked on Dec 7, 2021

Citations 50

checked on Aug 31, 2020

Google ScholarTM



Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.