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The impact of mild SARS-CoV-2 infection on maternal-fetal immunity

The ongoing coronavirus disease 2019 (COVID-19) pandemic, which is brought about by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), poses a serious threat to human health worldwide. Previous research has indicated higher rates of adverse outcomes in pregnant women who are infected with SARS-CoV-2.

Recently, a new study published on the pre-print server bioRxiv* examined the effect that maternal asymptomatic COVID-19 had on decidual and peripheral immune cells during the later stage of pregnancy.

Study: Deep immune profiling of the maternal-fetal interface with mild SARS-CoV-2 infection. Image Credit: PH888 / Shutterstock

Pregnancy and COVID-19

Pregnant women with severe COVID-19 infection have a 62% higher chance of getting admitted to the intensive care unit (ICU) as compared to non-pregnant women of the same reproductive age.

Although pregnant women are a higher risk group for COVID-19, most remain asymptomatic or have mild symptoms after being exposed to the virus.

"These differences are primarily driven by peripheral immune adaptations during pregnancy that balance fetal tolerance and growth with host defense," says the team of researchers from the University of California Irvine and Oregon Health and Sciences University.

Recent studies show that the peripheral immune system of pregnant women with asymptomatic disease has increased low-density neutrophils (LDN) without causing any significant changes in leukocyte frequencies, activation, and function. Additionally, cytokine storms characteristic of severe COVID-19 in the general population are rare among pregnant women. Results support the hypothesis that pregnancy limits exuberant peripheral inflammatory responses to SARS-CoV-2, which are more common in non-pregnant individuals.

In addition to the changes in blood, the maternal-fetal interface (placenta) also undergoes significant changes. The decidual compartments of the placenta harbor maternal immune cells, including macrophages, natural killer (NK) cells, and T-cells, all of which exhibit mixed phenotypic signatures that correlate with gestation and can respond to foreign particles at the maternal-fetal interface. Nevertheless, details about decidual adaptations to respiratory infections such as COVID-19 are slowly emerging.

Data strongly suggest that there is no vertical transmission of COVID-19, although rare detection of viral ribonucleic acid (RNA) in the placenta has been observed. Still, severe COVID-19 infection has been shown to trigger maternal inflammation at maternal-fetal interfaces.

Researchers report increased markers associated with preeclampsia, activation of placental NK cells and T-cells, as well as a rise in the expression of heat shock proteins and interferon-related genes related to stress.

However, there is still little understanding of how placental immune rewiring relates to peripheral immune adaptations due to mild infections.

About the study

The current study involved the collection of blood samples from participants and their separation into peripheral immune blood cells (PMBC) and plasma samples. The PMBC then undergoes phenotyping. First, the serological assay was performed using an enzyme-linked immunosorbent assay (ELISA), followed by placenta processing and decidua immunophenotyping.

Subsequently, 3' multiplexed single-cell RNA sequencing using decidual immune cells was followed by 5' multiplexed single-cell RNA sequencing with feature barcoding. Finally, single-cell RNA-seq data analysis and single-cell T-cell receptor (scTCR) sequencing analysis were carried out.

Study findings

The results of the current study show that the number of monocytes, granulocytes, and platelets increased during asymptomatic and mild COVID-19 cases, whereas no changes were observed in the level of lymphocytes. In addition, infection was associated with a decrease in the abundance of CD4 naïve T-cells that was accompanied by an increase in memory cells. These observations indicate a less severe inflammatory immune response in pregnant women with mild/moderate COVID-19.

No difference was observed concerning total B-cells and NK cells frequencies upon infection. Also, no differences were found in the expression of activation marker CD86 and major histocompatibility complex (MHC)-Class II molecule HLA-DR on infection.

The study also showed differential outcomes with two decidual macrophages. These included dMac1, which is a tissue-resident decidual macrophage, and dMac2, which is a blood monocyte-derived decidual macrophage.

In patients with asymptomatic COVID-19, a selective loss of dMac1 macrophages was observed. This reduction in the frequencies of dMac1 was accompanied by an increased expression in cytokines IL1B, CCL3, and CCL20.

Both types of macrophages brought about cytokine and chemokine signaling, as well as higher TCR expression, while the expression of heat shock proteins was brought about by only dMac1. Additionally, dMac1 macrophages were associated with increased induction of genes involves in viral sensing,  antiviral response, and the signaling of nuclear factor – B (NF-B).

Interferon signaling pathways were also attenuated by dMac2 in the decidua. The dMac2 subset was also associated with differences in immune activation, as well as the upregulation of chemotaxis, cell death, and interleukin 17 (IL-17) signaling genes.

"Macrophages in the decidua play diverse roles ranging from clearance of apoptotic bodies, wound healing to host defense, pathogen clearance, and facilitation of labor cascade."

Additionally, activated CD4 and CD8 T-cells were observed in both the blood and decidua of pregnant mothers who were asymptomatic or experienced mild symptoms of COVID-19. High levels of cytotoxic T-cells were observed in the blood, while upregulation of only CD8 T-cells was observed in the decidua.

"Taken together, these findings suggest that while antiviral cytotoxic responses are likely restricted to the blood, activated tissue-resident decidual T-cells are expanded with infection and exhibit signs of heightened interferon signaling."

The study had certain limitations; firstly, the sample size of the study was small. Secondly, it is unclear whether virus-specific T-cells in the placenta are derived from the blood. Thirdly, further research needs to be done to determine whether maternal infections have any long-term consequences on the offspring's immunity.

The researchers conclude, "It remains unclear if the placenta harbors virus-specific T-cells that migrate from blood. Importantly, while there is no evidence of vertical transmission, enrichment of activated T-cells and loss of regulatory tissue-resident macrophages (dMac1) and Tregs with infection skews the balance of decidual immune cells towards a pro-inflammatory state. The resulting aberrant immune activation in the placenta and misfiring of local cytokine networks can potentially contribute to pregnancy complications. Additionally, the developing fetal immune system is acutely sensitive to inflammation and stress, and it remains to be seen if such exposures, even with mild maternal infection, can have long-term consequences on immunity in the offspring."

*Important notice

bioRxiv publishes preliminary scientific reports that are not peer-reviewed and, therefore, should not be regarded as conclusive, guide clinical practice/health-related behavior, or treated as established information.

Journal reference:
  • Messaoudi, I. et al. (2021). Deep immune profiling of the maternal-fetal interface with mild SARS-CoV-2 infection. bioRxiv pre-print. doi: https://doi.org/10.1101/2021.08.23.457408 . https://www.biorxiv.org/content/10.1101/2021.08.23.457408v1 .

Posted in: Medical Research News | Women's Health News | Disease/Infection News

Tags: Assay, Blood, CD4, Cell, Cell Death, Chemokine, Coronavirus, Coronavirus Disease COVID-19, Cytokine, Cytokines, Enzyme, Genes, heat, Immune Response, Immune System, immunity, Immunophenotyping, Inflammation, Intensive Care, Labor, Leukocyte, Macrophage, Molecule, Monocyte, Neutrophils, Pandemic, Pathogen, Placenta, Platelets, Pregnancy, Receptor, Research, Respiratory, Ribonucleic Acid, RNA, RNA Sequencing, SARS, SARS-CoV-2, Severe Acute Respiratory, Severe Acute Respiratory Syndrome, Stress, Syndrome, T-Cell, Virus, Wound, Wound Healing

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Written by

Suchandrima Bhowmik

Suchandrima has a Bachelor of Science (B.Sc.) degree in Microbiology and a Master of Science (M.Sc.) degree in Microbiology from the University of Calcutta, India. The study of health and diseases was always very important to her. In addition to Microbiology, she also gained extensive knowledge in Biochemistry, Immunology, Medical Microbiology, Metabolism, and Biotechnology as part of her master's degree.

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  • Posted on August 30, 2021