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China CDC Weekly Perspective: The “Wolf” Is Indeed Coming: Recombinant “Deltacron” SARS-CoV-2 Detected

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  • China CDC Weekly Perspective: The “Wolf” Is Indeed Coming: Recombinant “Deltacron” SARS-CoV-2 Detected

    China CDC Weekly Perspective: The “Wolf” Is Indeed Coming: Recombinant “Deltacron” SARS-CoV-2 Detected




    #16,651

    Six months ago we looked at a perspective article, published in China's CCDC Weekly by two well-known Chinese scientists - George F. Gao and Liang Wang - on the continual spread of SARS-CoV-2 from humans to other animal hosts, and the impacts that could have going forward (see Perspectives: COVID-19 Expands Its Territories from Humans to Animals).
    • George F. Gao is a virologist and an immunologist - has been the Director of China's CDC since 2017, and is Dean of the Savaid Medical School of the University of Chinese Academy of Sciences.
    • Professor Liang Wang is an expert in pattern recognition, and is affiliated with the CAS Key Laboratory of Pathogen Microbiology and Immunology, the Center for Influenza Research and Early-warning (CASCIRE), and CAS-TWAS Center of Excellence for Emerging Infectious Diseases (CEEID), (among others).
    I've provided these `mini-bios' because their latest article on recombination in the SARS-CoV-2 virus - published yesterday in China's CDC Weekly - will likely raise some eyebrows, and I want their credentials to be established up front.

    We've looked at recombination in COVID before (see A COVID Recombination Review), and several papers (see here, and here) have cited possible examples in SARS-CoV-2, but its role in COVID's evolution remains murky.

    Recombination is the sharing of genetic material between similar genomes that simultaneously infect a single host. The resultant hybrid is called a recombinant.

    In influenza, we frequently talk about reassortment; the swapping of entire gene segments. With recombination - due to the way coronaviruses copy their RNA - smaller bits of genetic material may be exchanged.

    The emergence in early 2022 of a Delta x Omicron Recombinant (UK) virus - which the media has dubbed `Deltacron' - along with the continual spread of SARS-CoV-2 both in human and non-human hosts, has raised new concerns over the role recombination could play in the future course of the pandemic.

    All of which brings us to a dramatically titled perspective, published in the CCDC Weekly, that warns that recombination - both in human and non-human hosts - could provided more, and potentially more dangerous, COVID variants in the future.

    I've reformatted the text a bit for easier reading, and have bolded some sections. Follow the link to read the entire article, and view the graphics. I'll return with a postscript after the break.
    The “Wolf” Is Indeed Coming: Recombinant “Deltacron” SARS-CoV-2 Detected

    Liang Wang1;George F. Gao

    The Emergence of “Deltacron”

    On March 9, 2022, researchers from the Institut Pasteur used the global data science initiative GISAID (1-3) to release a severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) genome (ID: EPI_ISL_10819657) from an isolated virus, and then announced that it was the first solid evidence for a recombinant strain from 2 types of variants of concern (VOCs) of SARS-CoV-2 (lineage AY.4 and BA.1, belonging to Delta and Omicron, respectively).

    Complementary to the original data submitters’ full analysis, we would like to comment on this case in context of our experience in coronavirus evolution and the further perspective of this finding on the course of the pandemic. As announced, this novel strain has high genomic similarity to viruses belonging to lineage AY.4, except for the region encoding the spike (S) gene, which is more similar to those from lineage BA.1 (Figure 1A). Therefore, this novel strain uses Delta as its genomic backbone and then replaces a large portion of original S gene with the ortholog from Omicron. A total of 36 amino acid changes is found in the S protein compared to the prototype of SARS-CoV-2 (Figure 1B). Among 36 amino acid mutations, 27 were found in BA.1, 5 mutations were found in AY.4, and 4 mutations were found in both AY.4 and BA.1.

    However, it is not the first case of a recombination event identified in SARS-CoV-2. A previous study has documented that inter-lineage recombination events have been found in SARS-CoV-2 and then some recombinants caused further community transmission (4). However, these inter-lineage recombination events only occurred in some loci of the genome. No recombination events involving large genomic fragments (like “Deltacron”) have been found in SARS-CoV-2 before.

    Genetic Recombination Frequently Occurs in Coronaviruses

    Coronaviruses (CoVs) belong to a highly diverse family Coronaviridae, which could infect numerous types of species (like those from Aves and mammalian). Therefore, CoVs will pose a potential risk to public health and economy. As a hallmark of CoVs, genetic recombination events occur frequently in natural reservoir hosts due to co-infection of different types of CoVs in a single individual host and/or other reasons. Genetic recombination could arise at both the intra-species and inter-species level. For intra-species recombination, some genetic materials could be exchanged between strains of different subtypes of the same species.

    For example, an isolate of the Middle East respiratory syndrome coronavirus (MERS-CoV), imported to China from the Republic of Korea, has been documented as a recombinant virus from group 3 and group 5 (5). On the other hand, inter-species recombination occurs when two different species exchange their partial genetic materials and are also common in nature (including several types of human CoVs) (6). Despite most recombination events occurring among species belonging to Coronaviridae, cross-family genetic recombination events had also been found in nature (between Coronaviridae and Reoviridae) (7).

    The frequent genetic recombination of CoVs would lead to the emergence of novel viruses. Further, the most important threat of the emergence of these novel recombinant viruses is the possibility of cross-species transmission (8). The most recent example for that is two canine-feline recombinant alphacoronaviruses with extremely high genomic similarity (99.4%) have been isolated from humans by two independent research groups in different countries (9-10).

    A “Grey Rhino” Event for “Deltacron”

    Before the emergence of “Deltacron,” most scientific efforts were focused on assessing and responding to the effects of point mutations in the genome of SARS-CoV-2 during its global spread and evolution. Until now, 5 types of SARS-CoV-2 VOCs had been found circulating globally (Alpha, Beta, Gamma, Delta, and Omicron). They all exhibited increased transmissibility and varying degrees of immune escape (11-12). Although the emergence and subsequent spread of these VOCs has had a huge impact on global health and economy, it may not have been the worst case until now, as recombination (a major mechanism bringing genetic diversity to coronaviruses) has not really emerged on a large scale and shown its power before the emergence of “Deltacron.” The emergence of “Deltacron” is therefore a “grey rhino” rather than “black swan” event.

    “Deltacron” Is Just the Beginning

    With the advent of “Deltacron,” further concerns are coming. According to our preliminary analysis on the first “Deltacron” genome, recombination event only occurs in S gene. However, recombination events involving all types of genes encoded by CoVs have been found in nature (13). Consequently, the genetic recombination events involving other genes and/or the combination of other genes would also occur with high probability.

    Furthermore, the genetic recombination event of “Deltacron” occurs at the inter-lineage level, that is the parents of the “Deltacron” came from different lineages of the same species (AY.4 and BA.1), respectively. We could speculate that cross-species recombination events would be also appeared in future for the following reasons.

    First, the variety of host types of CoVs has resulted in its wide distribution throughout the world (14) and SARS-CoV-2 has spread all over the world. Second, several species of mammals other than humans have been infected by SARS-CoV-2 in nature, and many more species have been shown to be susceptible to SARS-CoV-2 (15). In addition, the spillover events of SARS-CoV-2 between humans and animals in both directions (for example transmission of SARS-CoV-2 from humans to minks and then back to humans and further community transmission) (16-17) have been found in nature.

    Taken together, the probability of co-infection with SARS-CoV-2 and other types of CoVs or even other viruses in a single host would be high, leading to the occurrence of cross-species recombination with high probability. Therefore, it is difficult to predict which viral species SARS-CoV-2 will recombine with, and on which genes future recombination will occur. This kind of uncertainty is doomed to increase the likelihood of generating a novel recombinant virus with unknown risk to humans.

    Concluding Remarks

    Although the emergence of a recombinant SARS-CoV-2 isolate was expected by scientists, it still attracted great attention. In addition to the need to conduct in-depth evaluation and research on the various properties of this novel recombinant virus, and adjust prevention and control strategies based on the results, it is more important to be alert to the generation of other types of recombinant viruses produced by SARS-CoV-2 and other viruses. Therefore, it is particularly important to implement large-scale virome study in both domesticated and wild animals.

    (Continue . . . )


    This starkly worded perspective is obviously designed to capture our attention in ways that a drier, more `conventional' scientific paper might not. And were it penned by less prestigious members of the scientific community, I'd probably be tempted to dismiss it as hyperbole.

    But when the Director of China's CDC is this outspoken on the threat, it is worth taking seriously.

    Of course, they don't have a crystal ball, and more severe variants aren't guaranteed. But recombination raises the risks, as does the spread of SARS-CoV-2 in non-human hosts.

    And since we've seen other coronaviruses produce much higher case fatality rates (SARS-CoV @10%, MERS-CoV @ 35%), we haven't necessarily seen the worst that nature can throw at us.

    Whether the next global health crisis is an offshoot of COVID, or a completely new threat, another pandemic is inevitable. And we'd better be ready for it.

    https://afludiary.blogspot.com/2022/...e-wolf-is.html
    All medical discussions are for educational purposes. I am not a doctor, just a retired paramedic. Nothing I post should be construed as specific medical advice. If you have a medical problem, see your physician.

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