Chlorovirus ATCV-1 is part of the human oropharyngeal virome and is associated with changes in cognitive functions in humans and mice
- Robert H. Yolkena,1,
- Lorraine Jones-Brandoa,
- David D. Duniganb,
- Geetha Kannanc,
- Faith Dickersond,
- Emily Severancea,
- Sarven Sabunciyana,
- C. Conover Talbot, Jr.e,
- Emese Prandovszkya,
- James R. Gurnonb,
- Irina V. Agarkovab,
- Flora Leistera,
- Kristin L. Gressitta,
- Ou Chena,
- Bryan Deubera,
- Fangrui Mab,
- Mikhail V. Pletnikovc, and
- James L. Van Ettenb,1
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Contributed by James L. Van Etten, October 3, 2014 (sent for review August 9, 2014; reviewed by Joram Feldon and Allan V. Kalueff)
Significance
Human mucosal surfaces contain a
wide range of microorganisms. The biological effects of these organisms
are largely unknown.
Large-scale metagenomic sequencing is
emerging as a method to identify novel microbes. Unexpectedly, we
identified DNA sequences
homologous to virus ATCV-1, an algal virus
not previously known to infect humans, in oropharyngeal samples
obtained from healthy
adults. The presence of ATCV-1 was
associated with a modest but measurable decrease in cognitive
functioning. A relationship
between ATCV-1 and cognitive functioning
was confirmed in a mouse model, which also indicated that exposure to
ATCV-1 resulted
in changes in gene expression within the
brain. Our study indicates that viruses in the environment not thought
to infect
humans can have biological effects.
Abstract
Chloroviruses (family Phycodnaviridae) are large DNA viruses known to infect certain eukaryotic green algae and have not been previously shown to infect humans
or to be part of the human virome. We unexpectedly found sequences homologous to the chlorovirus Acanthocystis turfacea
chlorella virus 1 (ATCV-1) in a metagenomic analysis of DNA extracted
from human oropharyngeal samples. These samples were
obtained by throat swabs of adults without
a psychiatric disorder or serious physical illness who were
participating in a
study that included measures of cognitive
functioning. The presence of ATCV-1 DNA was confirmed by quantitative
PCR with ATCV-1
DNA being documented in oropharyngeal
samples obtained from 40 (43.5%) of 92 individuals. The presence of
ATCV-1 DNA was not
associated with demographic variables but
was associated with a modest but statistically significant decrease in
the performance
on cognitive assessments of visual
processing and visual motor speed. We further explored the effects of
ATCV-1 in a mouse
model. The inoculation of ATCV-1 into the
intestinal tract of 9–11-wk-old mice resulted in a subsequent decrease
in performance
in several cognitive domains, including
ones involving recognition memory and sensory-motor gating. ATCV-1
exposure in mice
also resulted in the altered expression of
genes within the hippocampus. These genes comprised pathways related to
synaptic
plasticity, learning, memory formation,
and the immune response to viral exposure.
Professor
Pediatric Infectious Disease
Director
Developmental Neurovirology
Stanley Division of Developmental Neurovirology
Blalock 1105
600 N. Wolfe Street
Baltimore, MD 21287-4933
Harvard Medical School
Residency:
Yale New Haven Hospital
Schizophrenia,
Schizophrenia risks,
Biopolar Disorder
Role of Perinatal Infections in Subsequent Brain Development
The overall goal of the research laboratory is to develop a training and research program devoted to the elucidation of the role of infection and immunity in the etiology of schizophrenia and bipolar disorders. A Interests also include elucidating the role of perinatal infections in subsequent brain development.
A professor in the Division of Pediatric Infectious Disease at Hopkins Children’s, Yolken trained at Harvard, Yale and the National Institutes of Health (NIH) before joining the Hopkins faculty in 1979.
Phone: 410-614-0004
Fax: 410-955-3723
Email: yolken@mail.jhmi.edu
Robert H. Yolken, M.D.
Pediatric Infectious Disease
Director
Developmental Neurovirology
Specialty:
Infectious DiseasesLocation(s):
The Johns Hopkins University School of MedicineStanley Division of Developmental Neurovirology
Blalock 1105
600 N. Wolfe Street
Baltimore, MD 21287-4933
Education:
Medical School:Harvard Medical School
Residency:
Yale New Haven Hospital
Special Interests:
NeurovirologySchizophrenia,
Schizophrenia risks,
Biopolar Disorder
Role of Perinatal Infections in Subsequent Brain Development
Biography:
Former chief of Pediatric Infectious Diseases, Robert H. Yolken, the Theodore and Vada Stanley Distinguished Professor of Neurovirology in Pediatrics at Johns Hopkins, chairs the Division of Pediatric Neurovirology the nation’s first pediatric research center designed to investigate links between severe mental illness (including schizophrenia and manic depressive disorders) and early childhood viral infections. He and his research colleagues speculate that a virus invades the brain and then lies dormant for years before triggering the onset of schizophrenia or manic depressive illness in adolescence and young adulthood. They are investigating as possible viral triggers herpes, influenza A and B, and the Toxoplasma gondii parasite, which is carried by cats and farm animals. They believe that in the future antiviral medications might be developed to treat or prevent schizophrenia in some individuals.The overall goal of the research laboratory is to develop a training and research program devoted to the elucidation of the role of infection and immunity in the etiology of schizophrenia and bipolar disorders. A Interests also include elucidating the role of perinatal infections in subsequent brain development.
A professor in the Division of Pediatric Infectious Disease at Hopkins Children’s, Yolken trained at Harvard, Yale and the National Institutes of Health (NIH) before joining the Hopkins faculty in 1979.
Phone: 410-614-0004
Fax: 410-955-3723
Email: yolken@mail.jhmi.edu