Israel to Rule on Child COVID Vaccines Out of Public Eye Amid Anti-Vax Threats

 Israeli health officials will decide behind closed doors on whether to allow child COVID-19 vaccinations, citing concerns that decision makers would otherwise not speak freely due to aggressive anti-vax rhetoric by members of the public.

Israel has been a world leader in vaccinations and more than 40% of the population has received a third shot.

Following the green light given by the U.S. Food and Drug Administration for using the Pfizer/BioNTech coronavirus vaccine on children aged 5 to 11, Israel's Health Ministry is set on Wednesday to hold a decisive discussion among experts on whether to follow suit.

A discussion last week was broadcast live, but the ministry on Monday said the next meeting would be closed to the public.

"All the considerations for and against this decision were discussed, including the ability to hold a free and open discourse on such a sensitive and crucial issue against the backdrop of a prevailing violent discourse, which may affect the course of the discussion," the ministry said.

There have been an increasing number of threats against officials at the Health Ministry, police say, and at least one senior health official has been assigned a personal security detail.

https://www.usnews.com/news/world/articles/2021-11-08/israel-to-rule-on-child-covid-vaccines-out-of-public-eye-amid-anti-vax-threats

Bangladesh's Beximco to sell generic version of Merck COVID-19 pill

 Bangladesh's Beximco Pharmaceuticals Ltd will start selling a generic version of Merck & Co's antiviral pill for COVID-19 following local regulatory approval, it said on Tuesday.

The announcement marks the launch of the world's first generic version of Merck and Ridgeback Biotherapeutics' tablet, molnupiravir, which has been touted as a potential game-changer in the fight against the coronavirus.

Molnupiravir received its first regulatory approval globally, in the UK last week. It is still under review in the United States and Europe.

Beximco will soon begin selling generic molnupiravir, a cheaper version of Merck's branded pill, in Bangladesh, as it received emergency use authorisation for the treatment from the country's Directorate General of Drug Administration, it said in a statement. Exports would depend on regulatory approvals globally, it added.

Merck did not immediately respond to a request for comment.

The U.S. drugmaker has entered into licensing agreements with at least eight Indian drugmakers for molnupiravir, aiming to turn the South Asian nation into a manufacturing hub to supply low- and middle-income nations.

These include Dr Reddy's Laboratories, Cipla , Sun Pharma, Torrent Pharmaceuticals , Emcure Pharmaceuticals and Hetero, among others.

Beximco said it doesn't expect sales of the generic molnupiravir to significantly boost revenues, given the currently low COVID-19 infection rate in Bangladesh, which neighbours India.

https://www.marketscreener.com/quote/stock/DR-REDDY-S-LABORATORIES-6492671/news/Bangladesh-s-Beximco-to-sell-generic-version-of-Merck-COVID-19-pill-36949756/

Bayer Swung to 3Q Net Profit, Raises Outlook Amid Agricultural Recover

 German pharmaceutical-and-agricultural conglomerate Bayer AG on Tuesday swung to a profit for the third quarter and said sales rose, driven by a recovery in its agriculture business.

The company posted net profit of 85 million euros ($98.5 million), compared with a net loss of EUR2.74 billion a year earlier, when it experienced headwinds in the agriculture division.

Earnings before interest, taxes, depreciation and amortization before special items came in at EUR2.09 billion, up from EUR1.80 billion the year prior. Earnings before interest and taxes were EUR530 million, compared with a loss before interest and taxes of EUR9.40 billion, the company said

Sales rose to EUR9.78 billion from EUR8.51 billion, Bayer said.

Sales in the agricultural division--whose legal woes related to the Roundup weedkiller have prompted the company to set aside billions in provisions--rose almost 26% in the quarter, coming in at EUR3.85 billion, Bayer said.

The sales boost was driven by gains in North America due to slower product returns and a later receipt of license revenues, Bayer said. Herbicides recorded higher sales on the back of higher prices for glyphosate-based products and higher volumes, especially in North America and the Middle East and Africa, according to Bayer.

In Bayer's pharmaceuticals business, sales of prescription medicines rose more than 7% to EUR4.54 billion as the ophthalmology business grew market share in the recovery after Covid-19 restrictions, the company said.

Bayer's consumer-health sales grew almost 11% to EUR1.35 billion as continued high demand for nutritional products benefited the business.

The company adjusted its outlook for 2021. It said that it continues to expect sales to be about EUR44 billion, though that now corresponds to currency- and portfolio-adjusted growth of about 7%, compared with 6% previously.

Core earnings per share for the year are now expected to be in the range of EUR6.50 to EUR6.70 after currency effects, compared with a previous range of EUR6.40 to EUR6.60, it said.

https://www.marketscreener.com/quote/stock/BAYER-AG-436063/news/Bayer-Swung-to-3Q-Net-Profit-Raises-Outlook-Amid-Agricultural-Recovery-Update-36949496/

11,000 Boeing employees ask exemption from COVID-19 vaccine mandate

 About 11,000 Boeing Co. employees have asked to be exempted from COVID-19 vaccines the planemaker has mandated, according to a person briefed on the matter, a sign of backlash among some rank-and-file workers to the Biden administration’s rules for government contractors.

Nearly 9% of the company’s U.S. workforce are balking at the policy, stirring up strife at a time when Boeing is working to turnaround its finances, resolve quality lapses and starting to lay the groundwork for contract talks with its largest union. Reuters reported the extent of the pushback to the policy earlier.

The aviation titan has shifted its deadline for workers to comply to Jan. 4 from Dec. 8, in line with the new White House rules, IAM District 751, Boeing’s touch-labor union, said in a post on its website. 

“Boeing is committed to maintaining a safe working environment for our employees, and advancing the health and safety of our global workforce is fundamental to our values,” the planemaker said.

The tough stance on COVID shots adopted by United Airlines Holdings Inc. survived an initial legal challenge Monday. A federal district judge in Texas rejected a bid by some United workers to prevent the carrier from placing them on unpaid leave for refusing COVID vaccines.

IAM, which represents about 24,000 Seattle-area machinists, has been pushing Boeing to adopt a more flexible standard set by the Occupational Safety and Health Administration, a U.S. agency. It allows for employees to submit to regular testing in place as an alternative to getting jabbed.

The union also said in a Nov. 5 web post that it would support members with a religious conviction against the vaccines. 

Such beliefs are “not required to be lifelong, in-line with an organization you belong to, it can be uncommon and newly held,” the article said. “If you submit your opinion that this mandate is unconstitutional, not legal or a violation of your civil rights then your request will most likely be denied as it would not be a sincerely held religious belief.”

https://fortune.com/2021/11/08/boeing-covid-vaccine-mandate-religious-exemption/

COVID-19: The older you are, the more antibodies you have, study finds

 With the emergence of SARS-CoV-2 variants worldwide, the pandemic's spread is accelerating. A research team led by Joelle Pelletier and Jean-François Masson, both professors in Université de Montréal's Department of Chemistry, wanted to find out whether natural infection or vaccination led to more protective antibodies being generated.

In their study published today in Scientific Reports, they observe that those who received the Pfizer BioNTech or AstraZeneca vaccine had antibody levels that were significantly higher than infected individuals. These antibodies were also effective against the Delta variant, which wasn't present in Quebec when the samples were collected in 2020.

Masson, a biomedical instruments specialist, and Pelletier, a protein chemistry expert, were interested in an understudied group: people who have been infected by SARS-CoV-2 but were not hospitalized as a result of the infection.

32 non-hospitalized COVID-19 positive Canadian adults

Consequently, 32 non-hospitalized COVID-19 positive Canadian adults were recruited by the Centre hospitalier de l'Université Laval 14 to 21 days after being diagnosed through PCR testing. This was in 2020, before the Beta, Delta and Gamma variants emerged.

"Everyone who had been infected produced antibodies, but older people produced more than adults under 50 years of age," said Masson. "In addition, antibodies were still present in their bloodstream 16 weeks after their diagnosis."

Antibodies produced after an infection by the original, "native" strain of the virus also reacted to SARS-CoV-2 variants that emerged in subsequent waves, namely Beta (South Africa), Delta (India) and Gamma (Brazil), but to a lesser extent: a reduction of 30 to 50 per cent.

A surprising reaction to the Delta variant

"But the result that surprised us the most was that antibodies produced by naturally infected individuals 50 and older provided a greater degree of protection than adults below 50, " said Pelletier.

"This was determined by measuring the antibodies' capacity to inhibit the interaction of the Delta variant's spike protein with the ACE-2 receptor in human cells, which is how we become infected," he added. "We didn't observe the same phenomenon with the other variants."

When someone who has had a mild case of COVID is vaccinated, the antibody level in their blood doubles compared to an unvaccinated person who has been infected by the virus. Their antibodies are also better able to prevent spike-ACE-2 interaction.

"But what's even more interesting," said Masson, "is that we have samples from an individual younger than 49 whose infection didn't produce antibodies inhibiting spike-ACE-2 interaction, unlike vaccination. This suggests that vaccination increases protection against the Delta variant among people previously infected by the native strain."

Both scientists believe more research should be conducted to determine the best combination for maintaining the most effective level of antibodies reactive to all variants of the virus.

About this study

"Cross-reactivity of antibodies from non-hospitalized COVID-19 positive individuals against the native, B.1.351, B.1.617.2, and P.1 SARS-CoV-2 spike proteins," by Jean-François Masson et al, was published on October 26 2021 in Scientific Reports.

The study was done in collaboration with Université Laval, the Centre hospitalier de l'Université Laval, Héma-Québec and the National Research Council of Canada. It was funded by the Canadian Institutes of Health Research, the Natural Sciences and Engineering Research Council of Canada, the National Research Council of Canada's Pandemic Response Challenge Program and the Canada Foundation for Innovation.

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Story Source:

Materials provided by Université de Montréal. Note: Content may be edited for style and length.

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Journal Reference:

1. Maryam Hojjat Jodaylami, Abdelhadi Djaïleb, Pierre Ricard, Étienne Lavallée, Stella Cellier-Goethebeur, Megan-Faye Parker, Julien Coutu, Matthew Stuible, Christian Gervais, Yves Durocher, Florence Desautels, Marie-Pierre Cayer, Marie Joëlle de Grandmont, Samuel Rochette, Danny Brouard, Sylvie Trottier, Denis Boudreau, Joelle N. Pelletier, Jean-Francois Masson. Cross-reactivity of antibodies from non-hospitalized COVID-19 positive individuals against the native, B.1.351, B.1.617.2, and P.1 SARS-CoV-2 spike proteins. Scientific Reports, 2021; 11 (1) DOI: 10.1038/s41598-021-00844-z

https://www.sciencedaily.com/releases/2021/11/211108081455.htm

Blood plasma protein fibrinogen interacts directly with nerve cells to cause brain inflammation

 Neuroinflammatory diseases, including Alzheimer's disease and traumatic brain injury, have been linked to deposits of a tough protein known as fibrin, derived from the blood clotting factor fibrinogen. These mesh-like fibrin deposits occur outside blood vessels in the brain, contributing to the death of certain central nervous system cells (neurons) that eventually leads to impaired memory.

Now for the first time, a team at the University of South Florida Health (USF Health) Morsani College of Medicine, reports that before soluble fibrinogen is converted into insoluble fibrin molecules that can adversely accumulate, it can connect directly with neurons and cause a damaging inflammatory reaction. The researchers further discovered that fibrinogen specifically binds to two fibrinogen receptors on the surface of neurons: cellular prion protein (PrPC) and intracellular adhesion molecule-1 (ICAM-1).

Their preclinical study was published Sept. 18 in a special issue entitled "Prions and Prion-Like Mechanisms in Disease and Biological Function" in MDPI-Biomolecules.

The findings have implications for identifying targeted therapies to help prevent or stop neurodegeneration in Alzheimer's disease, traumatic brain injury, or other chronic neuroinflammatory diseases associated with abnormal vascular permeability (leakage) in the brain.

"Fibrinogen is one of the overlooked culprits involved in the processes of neurodegeneration and resulting memory loss," said principal investigator David Lominadze, PhD, a USF Health professor of surgery, and molecular pharmacology and physiology. "Our study shows that fibrinogen is not only a marker (biological indicator) of inflammation but can be a cause of inflammation in the brain."

Fibrinogen is a protein naturally produced in the liver and travels throughout the bloodstream to other organs and tissues. Outside of blood vessels, fibrinogen is converted by the enzyme thrombin into fibrin during blood clot formation, playing a key role in wound healing.

Dr. Lominadze's laboratory focuses on understanding molecular changes affecting circulation of blood in the body's smallest blood vessels -- including how microvascular changes induced by inflammation may damage cognition, in particular short-term memory.

Dr. Lominadze and others have shown that inflammatory disease is associated with a higher concentration of fibrinogen in the blood, increased generation of potentially damaging free radicals, neuronal cell activation and microvascular permeability. In previous studies using their mouse model for mild-to-moderate traumatic brain injury, Dr. Lominadze's group reported that fibrinogen after crossing the vascular wall accumulated in spaces between the microvessels and astrocytes (another brain cell type connecting vessels and neurons) and activated the astrocytes. This activation coincided with increased neurodegeneration and reduced short-term memory.

In this latest study the USF Health researchers tested whether fibrinogen, beside interacting with astrocytes, could connect directly with neurons -- nerve cells critical for carrying information throughout the human body and coordinating all necessary functions of life.

They treated healthy mouse brain neurons grown in a petri dish with fibrinogen. Fibrinogen increased the death of these neurons, a process that was not influenced by the presence or absence of a thrombin inhibitor preventing the conversion of fibrinogen to fibrin. The finding suggests that soluble fibrinogen and, at later stages, fibrin can have similar toxic effects on neurons.

Furthermore, blocking the function of PrPC and ICAM-1 fibrinogen receptors on the surface of neurons (essentially stopping fibrinogen from binding tightly to these receptors) reduced inflammatory reactions resulting in neurodegeneration.

"The study revealed that an interaction between fibrinogen and neurons induced an increase in the expression of proinflammatory cytokine interleukin-6 (IL-6), enhanced oxidative damage, and neuronal death, in part due to its direct association (contact) with neuronal PrPC and ICAM-1," the study authors wrote.

More research is needed. But altogether the USF Health study suggests that short-term memory problems stemming from neurodegenerative diseases with underlying inflammation may be alleviated by several interventions, Dr. Lominadze said. These include "dampening general inflammation, decreasing fibrinogen concentration in the blood by reducing the synthesis of fibrinogen, and blocking the binding of fibrinogen to its neuron receptors," he said.

The USF Health research was supported by a grant from the National Heart, Lung and Blood Institute, part of the National Institutes of Health.

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Story Source:

Materials provided by University of South Florida (USF Health). Note: Content may be edited for style and length.

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Journal Reference:

1. Nurul Sulimai, Jason Brown, David Lominadze. The Effects of Fibrinogen’s Interactions with Its Neuronal Receptors, Intercellular Adhesion Molecule-1 and Cellular Prion Protein. Biomolecules, 2021; 11 (9): 1381 DOI: 10.3390/biom11091381

https://www.sciencedaily.com/releases/2021/11/211108162210.htm

Why the elderly are more susceptible to COVID-19

 Among the populations most significantly affected by COVID-19 are the elderly and patients with preexisting medical conditions including diabetes, hypertension, obesity, metabolic syndrome, cardiovascular disease and chronic lung diseases like COPD and asthma.

In a new study published in the journal JCI Insight, Brown University researchers describe the cellular and molecular events that explain why these groups have a higher risk of infection as well as of severe side effects and death.

"This paper details a major discovery in COVID-19," said corresponding author Dr. Jack A. Elias, an immunologist and dean of medicine and biological sciences at Brown. "It shows that levels of a protein called chitinase 3-like-1 increase with age as well as co-morbid diseases and infection. What's more, chitinase 3-like-1 augments SARS CoV-2 infection."

The findings not only answer important questions about key mechanisms of the complex SARS-CoV-2 virus, Elias said, but also have direct implications for the development of therapeutics to control the viral infection.

Elias is part of a National Institutes of Health-funded laboratory that focuses on the cell and molecular biology of lung injury and repair. Researchers in the lab, including lead study author Suchitra Kamle and co-author Chun Geun Lee, have recently focused on the biology of enzymes and enzyme-like molecules, called chitinases and chitinase-like proteins, respectively. Of particular interest is a chitinase-like protein referred to as chitinase 3-like-1, a molecule naturally found in blood.

"We've been studying this gene family here at Brown for a while and we know that it has a large number of biologic effects, as well as tremendously important roles in both health and diseases," said Lee, a professor (research) of molecular microbiology and immunology.

Chitinase 3-like-1 is the cornerstone of a critical pathway that is activated during injury and inflammation. These researchers and others have shown that circulating levels of chitinase 3-like-1 increase during infection, especially in diseases characterized by inflammation and tissue alterations -- like emphysema, asthma and COPD, some the same co-morbid diseases that are risk factors for COVID-19.

Interestingly, Lee said, levels of chitinase 3-like-1 have also been shown to increase during normal aging. In fact, they have been reported to be the best predictor of all-cause mortality in people in their 80s.

The researchers thought they might be able to take some of the work they've already done with this gene family and apply it to COVID-19, Elias said. They decided to examine the relationship between chitinase 3-like-1 and the receptor ACE2, the spike protein to which the SARS-CoV-2 binds to enter human cells.

In a series of studies, the researchers compared the effects of chitinase 3-like-1 on ACE2 as well as on other protease enzymes that metabolize the spike protein and contribute to infection. They examined these interactions in the lungs of mice that were genetically modified to have exaggerated levels of chitinase 3-like-1 as well as mice deficient in chitinase 3-like-1. In the lab, Kamle led experiments that examined the effects of chitinase 3-like-1 on human lung epithelial cells.

The researchers found that levels of chitinase 3-like-1 increased with age, co-morbid diseases and infection. In addition, they noted that chitinase 3-like-1 was a potent stimulator of the receptor that SARS-CoV-2 uses to infect cells.

Spurred by this discovery, the researchers developed a humanized monoclonal antibody called FRG that attacks a particular region of chitinase 3-like-1 -- a step that turned out to be critical. They found that this "therapeutic" antibody, as well as another small molecule, powerfully blocked the induction of the ACE2 receptor.

"So in that way, the virus cannot enter into the host system," said Kamle, a Brown investigator in molecular microbiology and immunology as well as antibody engineering. "This means there will be less infection in the presence of this therapeutic FRG antibody."

These findings could pave the way for the development of therapeutics to protect people from infection, Elias said.

"You can imagine a scenario in which someone who has been exposed to a person who has the virus is given the antibody, which then acts like a prophylactic to prevent infection or make the symptoms that the infection induces milder," he said.

Elias described another potential scenario in which the person who has the virus is given the antibody or the small molecule, which halts the infection and effectively "cures" the illness.

"We show in this paper that if we make antibodies or other small molecules that can inhibit chitinase 3-like-1, they can be therapeutics to control viral infection," Elias said.

The team is currently looking at how these antibodies and small molecules react with different variants of the SARS CoV-2 virus, including the infectious delta variant that has recently changed the course of the pandemic.

In addition to Elias, Kamle and Lee, other Brown faculty who contributed to this research included Bing Ma, Chuan Hua He, Bedia Akosman, Yang Zhou, Chang Min Lee, Wafik S. El-Deiry, Kelsey Huntington and Olin Liang.

This work was supported by COVID-19 Research Seed Grant from Brown University, as well as by National Institute of Health grants U01 HL108638, PO1 HL114501,R01 HL115813 and RO1 AG053495, as well as grant USAMRMCW81XWH-17-1-0196 from the U.S. Department of Defense.

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Story Source:

Materials provided by Brown University. Note: Content may be edited for style and length.

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Journal Reference:

1. Suchitra Kamle, Bing Ma, Chuan Hua He, Bedia Akosman, Yang Zhou, Chang-Min Lee, Wafik S. El-Deiry, Kelsey Huntington, Olin Liang, Jason T. Machan, Min-Jong Kang, Hyeon Jun Shin, Emiko Mizoguchi, Chun Geun Lee, Jack A. Elias. Chitinase 3-like-1 is a therapeutic target that mediates the effects of aging in COVID-19. JCI Insight, 2021; 6 (21) DOI: 10.1172/jci.insight.148749

https://www.sciencedaily.com/releases/2021/11/211108130852.htm