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Thursday, April 1, 2021

Low HDL and high triglycerides predict COVID-19 severity

 

  • Lluís Masana
  • Eudald Correig
  • Daiana Ibarretxe
  • Eva Anoro
  • Juan Antonio Arroyo
  • Carlos Jericó
  • Carolina Guerrero
  • Marcel·la Miret
  • Silvia Näf
  • Anna Pardo
  • Verónica Perea
  • Rosa Pérez-Bernalte
  • Núria Plana
  • Rafael Ramírez-Montesinos
  • Meritxell Royuela
  • Cristina Soler
  • Maria Urquizu-Padilla
  • Alberto Zamora
  • Juan Pedro-Botet on behalf of 
  • the STACOV-XULA research group

  • PDF: https://www.nature.com/articles/s41598-021-86747-5.pdf

    Abstract

    Lipids are indispensable in the SARS-CoV-2 infection process. The clinical significance of plasma lipid profile during COVID-19 has not been rigorously evaluated. We aim to ascertain the association of the plasma lipid profile with SARS-CoV-2 infection clinical evolution. Observational cross-sectional study including 1411 hospitalized patients with COVID-19 and an available standard lipid profile prior (n: 1305) or during hospitalization (n: 297). The usefulness of serum total, LDL, non-HDL and HDL cholesterol to predict the COVID-19 prognosis (severe vs mild) was analysed. Patients with severe COVID-19 evolution had lower HDL cholesterol and higher triglyceride levels before the infection. The lipid profile measured during hospitalization also showed that a severe outcome was associated with lower HDL cholesterol levels and higher triglycerides. HDL cholesterol and triglyceride concentrations were correlated with ferritin and D-dimer levels but not with CRP levels. The presence of atherogenic dyslipidaemia during the infection was strongly and independently associated with a worse COVID-19 infection prognosis. The low HDL cholesterol and high triglyceride concentrations measured before or during hospitalization are strong predictors of a severe course of the disease. The lipid profile should be considered as a sensitive marker of inflammation and should be measured in patients with COVID-19.

    https://www.nature.com/articles/s41598-021-86747-5

    SARS-CoV-2 exposure generates T-cell memory in absence of detectable viral infection

     

  • Zhongfang Wang
  • Xiaoyun Yang
  • Jiaying Zhong
  • Yumin Zhou
  • Zhiqiang Tang
  • Haibo Zhou
  • Jun He
  • Xinyue Mei
  • Yonghong Tang
  • Bijia Lin
  • Zhenjun Chen
  • James McCluskey
  • Ji Yang,


  • Alexandra J. Corbett & 
  • Pixin Ran

  • PDF: https://www.nature.com/articles/s41467-021-22036-z.pdf

    Abstract

    T-cell immunity is important for recovery from COVID-19 and provides heightened immunity for re-infection. However, little is known about the SARS-CoV-2-specific T-cell immunity in virus-exposed individuals. Here we report virus-specific CD4+ and CD8+ T-cell memory in recovered COVID-19 patients and close contacts. We also demonstrate the size and quality of the memory T-cell pool of COVID-19 patients are larger and better than those of close contacts. However, the proliferation capacity, size and quality of T-cell responses in close contacts are readily distinguishable from healthy donors, suggesting close contacts are able to gain T-cell immunity against SARS-CoV-2 despite lacking a detectable infection. Additionally, asymptomatic and symptomatic COVID-19 patients contain similar levels of SARS-CoV-2-specific T-cell memory. Overall, this study demonstrates the versatility and potential of memory T cells from COVID-19 patients and close contacts, which may be important for host protection.

    https://www.nature.com/articles/s41467-021-22036-z

    BNT162b2 Vax in People Over 80 Induces Strong Immune Response, Cross Neutralizes P.1 Brazil Variant

     

    Helen Marie Parry

    University of Birmingham - Institute of Immunology and Immunotherapy

    Gokhan Tut

    University of Birmingham

    Sian Faustini

    University of Birmingham - Clinical Immunology Service

    Christine Stephens

    University of Birmingham - Institute of Immunology and Immunotherapy

    Philip Saunders

    Quinton and Harborne PCN

    Christopher Bentley

    University of Birmingham - Institute of Immunology and Immunotherapy

    Katherine Hilyard

    Deparment of Buisness Energy and Industrial Strategy - Vaccine Taskforce

    Kevin Brown

    Public Health England

    Gayatri Amirthalingam

    Public Health England - Immunisation and Countermeasures Division

    Sue Charlton

    Public Health England - National Infection Service

    Stephanie Leung

    Government of the United Kingdom - National Infection Service

    Emily Chiplin

    Government of the United Kingdom - National Infection Service

    Naomi S. Coombes

    Government of the United Kingdom - National Infection Service

    Kevin R. Bewley

    Government of the United Kingdom - National Infection Service

    Elizabeth J. Penn

    Government of the United Kingdom - National Infection Service

    Cathy Rowe

    Public Health England

    Ashley Otter

    Public Health England

    Rosie Watts

    Government of the United Kingdom - National Infection Service

    Silvia D’Arcangelo

    Government of the United Kingdom - National Infection Service

    Bassam Hallis

    Public Health England - National Infection Service

    Andrew Makin

    Oxford Immunotec LTD

    Alex G. Richter

    University of Birmingham - Clinical Immunology Service

    Jianmin Zuo

    University of Birmingham - Institute of Immunology and Immunotherapy

    Paul Moss

    University of Birmingham - Institute of Immunology and Immunotherapy

    More...



    Background: Age is the major risk factor for mortality after SARS-CoV-2 infection and older people have received priority consideration for COVID-19 vaccination. However vaccine responses are often suboptimal in this age group and few people over the age of 80 years were included in vaccine registration trials.

    Methods: We determined the serological and cellular response to spike protein in 100 people aged 80-96 years at 2 weeks after second vaccination with the Pfizer BNT162b2 mRNA vaccine.

    Findings: Antibody responses were seen in every donor with high titres in 98%. Spike-specific cellular immune responses were detectable in only 63% and correlated with humoral response. Previous SARS-CoV-2 infection substantially increased antibody responses after one vaccine and antibody and cellular responses remained 28-fold and 3-fold higher respectively after dual vaccination. Post-vaccine sera mediated strong neutralisation of live Victoria (Wuhan-like prototype) infection and although neutralisation titres were reduced 14-fold against the P.1 variant first discovered in Brazil they remained largely effective.

    Interpretation: These data demonstrate that the mRNA vaccine platform delivers strong humoral immunity in people up to 96 years of age and retains broad efficacy against the P.1 Variant of Concern.

    Funding: This work was supported by the UK Coronavirus Immunology Consortium (UK-CIC) funded by DHSC/UKRI and the National Core Studies Immunity programme.

    Declaration of Interest: None to declare


    Dementia researcher Lipton: Why new Alzheimer's drugs fail

     There are a few commonly trotted out reasons for why virtually every Alzheimer’s drug of the last two decades has failed: Maybe the trials didn’t start early enough in the course of disease, or maybe they didn’t go after the right group of patients?


    As companies have started earlier and on more select groups of patients, another conclusion has grown increasingly popular: Maybe they’ve all gone after the wrong target. Maybe clearing the misfolded plaques that buildup in patients’ brains, as these therapies have, just wipes away one symptom of the disease but not the root cause.


    Stuart Lipton, though, has an alternative explanation. A leading dementia expert who helped develop the the last FDA-approved Alzheimer’s drug, he is publishing new research this week showing that the antibodies companies developed might be having an unintended side effect that undercuts any benefit they offer.


    Amyloid-clearing antibodies, he wrote in a paper for the Proceeding of the National Academy of Science, might be setting off dangerous inflammation that, in a cruel bit of irony, hasten neurological decline. Lipton called the result paradoxical.


    “We realized that it’s possible these human trials, many of which have failed, might be in part failing because they’re paradoxically inducing more inflammation in the brain,” he told Endpoints News, “even though they’re getting rid of the protein, which may be a good thing.”



    The research began when a postdoc at Lipton’s Scripps Institute lab, Dorit Trudler, attempted to make the innate immune cell of the brain, an octopus-looking goop called the microglia, in the lab. It’s a difficult task because microglia don’t come from the same lineage of stem cells in the bone marrow that the rest of the immune system, B cells and T cells and macrophages, do.


    Instead, it comes from the yolk sac that bathes embryos in early development, migrating from the sac to the brain. By giving human-derived stem cells a series of molecular signals, Trudler turned them into a cluster that resembled a yolk sac and, from it, developed cells that, based on the mRNA they express, were indistinguishable from microglia removed from humans.


    “They match as closely as possible,” Lipton said.


    Because human microglia are difficult to produce, drug researchers have historically used mouse models to see how the immune cells respond to drugs. Lipton and Trudler, though, were able to simulate how human microglia respond in the brain.


    They found that if you exposed these microglia to either alpha synuclein, the hallmark misfolded protein in Parkinson’s, the microglia sent off inflammatory signals. And if you added amyloid-beta, the inflammation worsened.


    Finally, they managed to obtain antibodies that companies had developed to bind to and clear those misfolded proteins. (Lipton declined to say which antibody it was, except that, despite his best efforts to convince the drugmaker, it wasn’t Biogen’s aducanumab, the controversial candidate now before the FDA.)


    To their surprise, the antibodies successfully binded to the misfolded protein but that didn’t help inflammation. “Rather than make things better, it actually made things worse,” Lipton said.


    By looking at humanized mice that had both human and mice microglia, Lipton’s team found that the pro-inflammatory response was unique to the human cells, meaning drugmakers wouldn’t have seen it in the translational studies. They’re still not sure why it’s causing inflammation, but they showed the effect with multiple different antibodies that target multiple different proteins and they’ve nailed down the pathway, NLRP3, that’s involved.


    Still, Lipton said, they don’t necessarily have to figure out the exact mechanism. He says you could imagine giving these amyloid-clearing drugs in combination with a drug that blocks inflammation, allowing doctors to clear out misfolded proteins without dangerously turning up the heat.


    In fact, it’s what his lab is working on right now.


    “We’re hopeful that we can maybe develop a drug in the near future that can offset,” Lipton said.

    https://endpts.com/stuart-lipton-offers-a-new-possible-reason-why-all-the-alzheimers-drugs-have-failed/

    Goldman March Payrolls Preview

     A few brief excerpts from a note by Goldman Sachs economist Spencer Hill:

    We estimate nonfarm payrolls rose 775k in March ... Big Data employment signals also indicate a pickup in job growth, and we expect a favorable swing in the weather to support construction employment following weakness in February. ... We estimate a three-tenth decline in the unemployment rate to 5.9%​.
    emphasis added
    CR Note: The consensus is for 565 thousand jobs added, and for the unemployment rate to decrease to 6.0%.

    Covid positivity rates among kids nearly double that seen in adults: Study

     New research about the number of children infected with COVID-19 was conducted by Inova Health System, Virginia Department of Health and George Mason University. It looked at children over a span of 10 weeks during the first half of the pandemic. Researchers found that positivity rates among kids were nearly double the number we saw in adults.


    "We were very surprised to find 8.5% of our children were antibody positive and that was about double what we saw in adults in Northern Virginia at the same time,” said Rebecca Levorson for Division Director of Pediatric Infectious Diseases at Inova Children's Hospital.

    Researchers tested more than 1,000 kids in Northern Virginia. Out of the children in the group who had COVID-19 antibodies, more than 65% never showed any symptoms.

    “I think children have been a silent bearer of infection. They have more mild symptoms so they may not go and get tested because they don’t have a high-grade fever. So, we just really didn’t know that children had COVID to such an extent,” said Levorson.

    The study also looked at race and social-economic status.


    “We found that a number of children who classify themselves as Hispanic are at a higher rate of infection and we also saw that during the beginning part of the pandemic here in Northern Virginia, we saw some discrepancies between the different races in regards to more infection early on and I think that still holds true,” said Levorson.

    Levorson said we need to look at ways to continue to protect children, including vaccinations.


    “I think we also know that using the strategies we have in place of wearing masks, social distancing, doing contract tracing if there is someone found to be positive, I think those measures do work. So I think it’s important we continue all of those efforts,” said Levorson.


    Until more people are vaccinated, Leverson said it’s important to remember anyone could have COVID-19 even if they show no symptoms. That’s why it’s important to wear masks and follow CDC guidelines.


    “I think it’s also really important that we need to consider children getting vaccinated, we need to protect children too,” said Levorson.

    To learn more about the study, click here.


    https://www.wusa9.com/article/news/health/coronavirus/virginia-study-more-kids-had-coronavirus/65-37647350-cedb-4b69-9c5a-b445d381dbc0

    U.S. begins testing Moderna Covid vax booster for South Africa variant

     The National Institutes of Health has started testing a new coronavirus vaccine from Moderna designed to protect against a problematic variant first found in South Africa, the agency said Wednesday.

    The phase one trial, led and funded by the NIH’s National Institute of Allergy and Infectious Diseases, will test how safe and effective the new shot is against the variant — known as B.1.351 — in roughly 210 healthy adults, according to the agency.

    The trial, which has already administered some of its first shots, will include approximately 60 adults who participated in Moderna’s original Covid-19 vaccine trials last year, as well as approximately 150 people who haven’t received any Covid-19 vaccine yet, according to a statement.

    The returning participants who were given two shots of the original vaccine 28 days apart at varying doses early last year will split up.

    Some of them will be given a single booster shot with the new vaccine at a higher dose while some will receive the new vaccine at a lower dose, the statement said. The remaining participants will be offered a booster shot with the original vaccine “as part of a separate clinical trial protocol.”

    Researchers will take blood samples from participants throughout the trial that can be tested against other circulating strains of the virus to determine whether the vaccine produces an immune response.

    The trial will recruit volunteers in the Atlanta, Cincinnati, Seattle, and Nashville, Tennessee, areas and should be fully enrolled by the end of April, the agency said.

    The B.1.351 variant first discovered in South Africa late last year has given scientists more cause for concern compared with other variants. The variant appears to spread easier than the “wild type” original strains, and research indicates it can possibly evade some of the protections generated by therapeutics and vaccines.

    So far, there have been 312 Covid-19 cases with the B.1.351 variant identified in the U.S., according to the latest data from the Centers for Disease Control and Prevention.

    “Preliminary data show that the COVID-19 vaccines currently available in the United States should provide an adequate degree of protection against SARS-CoV-2 variants,” NIAID Director and White House chief medical advisor Dr. Anthony Fauci said in a statement.

    “However, out of an abundance of caution, NIAID has continued its partnership with Moderna to evaluate this variant vaccine candidate should there be a need for an updated vaccine,” Fauci said.

    The U.S. Food and Drug Administration has previously said it will expedite the authorization process for the updated vaccines that target the troublesome variants, eliminating the need for lengthy clinical trials.

    However, an independent safety monitoring committee will continue to oversee the trials to ensure the shots are safe, the NIH statement said.

    https://www.cnbc.com/2021/03/31/us-begins-testing-modernas-covid-vaccine-booster-shots-for-variant-from-south-africa.html