SARS-CoV-2: the emergence of a viral pathogen causing havoc on human existence
Journal of Genetics (2020)99:37
https://doi.org/10.1007/s12041-020-01205-x
Ó Indian Academy of Sciences
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PERSPECTIVES
SARS-CoV-2: the emergence of a viral pathogen causing havoc
on human existence
ASHISH PRASAD and MANOJ PRASAD*
National Institute of Plant Genome Research, Aruna Asaf Ali Marg, New Delhi 110 067, India
*For correspondence. E-mail: .
Received 10 April 2020; accepted 11 April 2020
Keywords.
SARS-CoV-2; viral pathogen; epidemic; pandemic; coronavirus; human health.
Coronavirus disease 2019 was first reported from Wuhan
district of China and has spread to 210 countries across
the world claiming over 97,602 human lives as on 10
April 2020 by 21:06 pm. Currently, there is no specific
treatment for this virus and the treatment is mainly relied
on controlling symptoms. Here we discuss our current
understanding of SARS-CoV-2 with respect to its receptor
recognition and how this knowledge could be useful in
treatement using clinically known inhibitory drugs. We
have also discussed the diagnosis, treatment and preventive measures that are currently being employed for
controlling further spread of the virus.
Introduction
The ongoing pandemic caused by severe acute respiratory
syndrome-coronavirus-2 (SARS-CoV-2) has been spreading
rapidly across the world, infecting over 16 lakh people as on
10 April 2020. SARS-CoV-2 is less pathogenic in terms of
mortality and severity than SARS-CoV-1, which had caused
an epidemic in 2003 infecting about 8000 people (Yi et al.
2020). However, it is more transmissive and has spread at an
alarming rate in the past few days. Middle East respiratory
syndrome coronavirus (MERS-CoV) that emerged in 2012,
has so far infected 2279 people claiming 806 lives (Mubarak
et al. 2019). This century has already seen three coronavirus
outbreaks in humans. All these viruses belong to the family
Coronaviridae, which consists of two subfamilies: Coronavirinae and Torovirinae. Coronavirinae is further divided
into four genera: Alphacoronavirus, Betacoronavirus,
Gammacoronavirus and Deltacoronavirus, and SARS-CoV2 belongs to Betacoronavirus. CoVs have very large, nonsegmented, positive-sense RNA genome, which is about 30
kb (Fehr and Perlman 2015). The nucleocapsid (N) is helical
and covered by a spherical lipid bilayer envelope embedded
with other structural proteins; spike-glycoprotein (S),
membrane (M), and envelope (E) (figure 1) (De Wit et al.
2016).
SARS-CoV-2 biology and possible evolution
The CoV entry into its host is guided by the attachment of
S-glycoprotein to a membrane protein that acts as a receptor
on the host’s surface (figure 2). To date, several such
receptors have been found for different CoVs-like angiotensin-converting enzyme 2 (ACE2) for SARS-CoV/SARSCoV-2 and dipeptidyl peptidase4 (DPP4) for MERS-CoV
(Raj et al. 2013). The receptor-binding domain (RBD) present in the S-glycoprotein takes part in the interaction with
the host receptor for viral entry. A study has indicated that
the mutations in the RBD have led to a higher binding
affinity of SARS-CoV-2 to the human ACE2 receptor than
SARS-CoV. Natural selection in humans or other organisms
with human-like ACE2 has resulted in optimal binding of
RBD which indicates that the virus has not been purposefully manipulated (Andersen et al. 2020). The same study
also highlighted that a polybasic furin cleavage site in
S-glycoprotein is present in SARS-CoV-2 and cleavage by
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Ashish Prasad and Manoj Prasad
Figure 1. SARS-CoV-2 and related coronaviruses are enveloped
positive sense RNA viruses. The structural proteins of the virus are:
S-glycoprotein, envelope protein, membrane protein and nucleoprotein. The nucleocapsid is helical and is surrounded by a
spherical envelope.
host furin enzyme resulted in activation of spike protein
(Andersen et al. 2020). The presence of furin in small
intestine, liver and lungs partially explains the effective
transmission rates of SARS-CoV-2 compared to other related
viruses. ACE2 is involved in the cleavage of angiotensin II
to angiotensin 1–7, leading to a lowering of blood pressure
(Keidar et al. 2007). However, SARS-CoV-2 and related
viruses have evolved to utilize such receptors for their own
benefit by using them for initial attachment and entry.
Several theories have been proposed for the putative origin
of SARS-CoV-2. Phylogenetic analysis has revealed 89.1%
similarity with a cluster of coronaviruses found in bats,
suggesting that the virus might have naturally been selected
in bats before zoonotic transfer to humans (Wu et al. 2020).
Another study suggests Malayan pangolins as the origin,
considering the high similarity in the major amino acid
residues present in the RBD (Andersen et al. 2020). However, it is difficult to predict the exact origin of coronaviruses
considering the inadequate sampling of bats, pangolins and
other animals. The absence of polybasic furin cleavage site
in the sampled coronaviruses also challenges the acceptability of the suggested theories. A recent phylogenetic
analysis revealed that there are three major variants of
SARS-CoV-2: A, B and C, among which A is the ancestral
type; B is the most common type found in east Asia and the
other two are found in America and Europe in significant
proportion (Forster et al. 2020). This virus is quite different
from other viruses that cause flu. Although flu is caused by
RNA viruses, they belong to a different family called
influenza viruses, which have a smaller genome compared to
SARS-CoV-2. Some other coronaviruses are also reported to
cause common cold with mild symptoms, but the similarity
of SARS-CoV-2 with such viruses is only 50% at the
nucleotide level. Nucleotide identity with SARS-CoV and
MERS-CoV is 80% and 55%, respectively (Bar-on et al.
2020).
Figure 2. SARS-CoV-2 and related viruses bind to receptors on the host membrane for entry. Viral RNA is released following entry, which
is directly translated to replicase protein. This protein assists in viral replication. The antigenome is transcribed to produce viral transcripts
which are translated into viral proteins. Viral assembly is followed by release of new virions to infect new cells.
�SARS-CoV-2 causing havoc
Diagnosis, treatment and preventions
The most important step for devising treatment strategies for
any disease is to diagnose it. SARS-CoV-2 nucleic acid
isolated from the upper and lower respiratory tracts has been
the main source of template for its detection by real-time
(RT) PCR (Corman et al. 2020). There is strong positive
correlation between leukocyte and lymphocyte count which
can also be used as initial diagnosis (Jin et al. 2020).
Symptoms associated with coronavirus disease 2019
(COVID-19) are quite diverse, ranging from fever, muscle
aches, cough and shortness of breath. Sore throat and running nose, which is very prominent in case of human
coronaviruses causing common cold, have been observed in
less than 5% of patients. In severe cas (...truncated)
