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Health

Moderna jumps into pivotal pack with promising RSV data as big rivals face off in megablockbuster race – Endpoints News

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David Kessler, the Biden administration’s chief science officer for Covid-19, will step down this week amid question marks about what the next iteration of the Covid vaccine (from booster to price) will look like moving forward, and shortly after the admin’s other long-time chief medical advisor, Tony Fauci, stepped down.

Buttressed by his FDA commissioner experience from 1990-1997, Kessler stood atop the reincarnated version of Operation Warp Speed, helping to bring the bivalent booster to millions, as well as millions of new doses of oral antivirals.

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Pack these snacks, says nutritionist

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Travelers have a host of pathogens to dodge this winter, including the “tripledemic” of infections caused by Covid-19, flu and RSV (respiratory syncytial virus).

But there are steps people can take to reduce their chances of getting sick, say health specialists at Spain’s SHA Wellness Clinic.

The key is to develop “a resilient immune system that can defend itself from attack by viruses and bacteria,” said Dr. Vicente Mera, SHA’s head of genomic medicine.

What to eat

“The most important thing is nutrition,” Mera said.

But drastic dieting isn’t necessary, he added. Rather, travelers can simply eat whole, plant-based foods, which can help decrease inflammation, he said.

Fiber in plant-based foods also helps the gut microbiome “fight pathogens that enter or are activated through the digestive tract,” he said.

Dr. Vicente Mera, Melanie Waxman and Philippa Harvey of SHA Wellness Clinic in Alicante, Spain.

Source: SHA Wellness Clinic

Eating a nutrient-dense diet is the top recommendation from Melanie Waxman, an integrative nutrition specialist and eating coach at SHA Wellness Clinic.

That means eating “lots of vegetables, whole grains, fresh herbs, beans, sea vegetables, fruits, nuts, seeds and fermented foods,” she said.

What to pack on a plane

Waxman said travelers should snack on alkaline foods to combat acidity that is commonly caused by air travel. She recommended these easy-to-pack foods:

  • Toasted nori snacks: “Great for travelling as they are light and easy to carry in small packs. Nori is alkaline and provides a good source of vitamin C, as well as omega-3 fatty acids, protein and minerals.”
  • Instant miso soup: “Contains all the essential amino acids … and restores beneficial probiotics to the intestines … great for flights and in hotel rooms as you only need to add boiling water to the sachet.”
  • Spirulina powder: “Packed with calcium and protein. It has a high chlorophyll content … is especially beneficial after spending hours in airplane cabins. The flavor can be strong so add it to a refreshing vegetable juice … [or take] as a capsule.”  
  • Plum balls: “A wonderful travel companion, as they are extremely alkaline, full of minerals that help increase energy, aid digestion, boost immunity and improve liver functions … the balls come in a container and are easy to pack in a cabin bag.”

A fermented plum, called umeboshi in Japanese, can be added to a cup of tea on a flight. It is a “very sour plum that has been fermented for at least three years,” said SHA Wellness Clinic’s Melanie Waxman.

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Breakfast

Waxman recommends drinking one tablespoon of apple cider vinegar mixed with a glass of water before breakfast. The vinegar is “a powerful immune booster … full of probiotics,” she said.

For breakfast, a “wonderful” choice is oatmeal topped with berries, chia seeds and flax seeds, she said.

“Oats actually help the body produce melatonin more naturally,” she said. “Oats contain amino acids, potassium, B vitamins, magnesium and complex carbs … berries pack a punch of vitamin C, and the seeds provide extra omega-3 and protein.”

Jet lag

To combat jet lag, Waxman recommends taking more vitamin C.

She recommends eating sauerkraut, both before and after flying. “Fermenting cabbage causes the vitamin C and antioxidant levels to skyrocket,” she said.

Fresh vegetable juice is also great for immunity and jet lag recovery, she said.

Getting enough sleep

Sleep and immunity are closely linked, Mera said.  

“Restful sleep strengthens nature immunity,” he said, adding that poor quality, or quantity, of sleep increases the chances of falling sick.

People who average less than six hours of sleep a night, or 40 hours per week, have “a serious risk of illness,” he said.

Exercise — but don’t overdo it

Moderate exercise strengthens the immune system, Mera said.

But “30 minutes a day is more than enough,” he said. “Prolonged intense exercise can suppress the immune system.”

To avoid suppressing the immune system, travelers shouldn’t exercise to the point of exhaustion, said Dr. Vicente Mera, head of genomic medicine at SHA Wellness Clinic.

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Examples of beneficial exercise include running, walking, swimming and cycling, he said.

Supplements, for some

Studies indicate that certain supplements — such as vitamin C, vitamin D, zinc, garlic, echinacea and green tea — may strengthen the body’s immune response, Mera said.

But, he said, they’re not necessary for everyone.

“It only compensates for nutrient deficiencies, which usually occur when nutrition is inadequate, or the immune system is very depressed,” he said.

Other recommendations

To strengthen the immune system, Waxman also suggests Epsom salt baths (“magnesium is easily absorbed through the skin”), using essential oils (“especially lavender, eucalyptus or tree tree oil”), drinking plenty of water and cutting back on alcohol, caffeine and sugar.

Mera added that relieving stress and anxiety is critical to immune health. He recommends meditation, yoga, tai chi and mindfulness to better manage emotions.

Philippa Harvey, head of SHA’s traditional Chinese medicine department, said travelers should start taking steps to strengthen their immune systems about a week before traveling.

“In TCM when someone is healthy and happy we say they have good qi, pronounced ‘chee'” she said.

She recommends eating foods that are in season, especially garlic and ginger in the autumn and winter.

She also recommends exercise and acupressure to stay healthy.

“Before we travel, a nice brisk walk in fresh air is the simplest solution,” she said.

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Health

Behavior-changing parasite moves wolves to the head of the pack

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Toxoplasma gondii is a ubiquitous protozoan parasite that can infect any warm-blooded species. In lab studies, infection with T. gondii has been shown to increase dopamine and testosterone levels along with risk-taking behaviors in hosts including rodents, chimps, and hyenas. Oh, and humans.

But its effects have not really been studied in the wild, so some researchers decided to assess how infection impacts gray wolves in Yellowstone National Park. They found that “the odds that a seropositive [infected] wolf becomes a pack leader is more than 46 times higher than a seronegative wolf becoming a pack leader.”

In the wild

Serum samples have been taken from the wolf packs in Yellowstone since 1995. These scientists assayed samples from 229 individual wolves taken over the years—116 males, 112 females, and one hermaphrodite—to try to correlate the presence of antibodies against the parasite with demographic factors and specific behaviors. (The relationship between antibodies and infection is complicated, given that the parasite can persist at low levels indefinitely after infections.)

Gray wolves and cougars are intermediate hosts and definitive hosts, respectively, of T. gondii, meaning the parasite grows to sexual maturity in wolves but needs to infect cougars to reproduce sexually. The two carnivores have some overlapping territory within Yellowstone, especially along its northern edge, and they compete for the same prey. Living in an area of high cougar overlap was the single biggest predictor of a wolf being infected with the parasite, more than any demographic factors like the wolf’s age, sex, or coat color.

Wolves with antibodies against the parasite were significantly more likely to disperse (leave their packs and set out on their own) and to become pack leaders. Pursuing both of these courses of action constitutes aggressive and risky wolf behavior, and they represent the two biggest decisions in a wolf’s life.

Parasites in charge?

Because gray wolves live together in groups, pack leaders have a disproportionate effect on their collective decisions. An infected leader may increase the overall number of infected wolves, both because pack leaders have a reproductive advantage and because risk-taking leaders might be less hesitant to lead their packs into cougar territory, where they can pick up their own infections.

Plus, wolves are social creatures who learn from and emulate their leader’s behaviors. So T. gondii-infected, aggressive, risk-taking pack leaders can yield “a more assertive, risk-embracing pack culture even though only a few key individuals are actually infected.”

Of course, increased engagement in risky behaviors is dangerous, so some of these hyper-aggressive wolf leaders and the packs that copy them are more likely to get themselves killed. Regardless, the selfish genes dictating their behaviors and their fates aren’t even their own genes. Parasites are the puppeteers.

communications biology, 2022. DOI: 10.1038/s42003-022-04122-0

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Health

Behavior-changing parasite moves wolves to the head of the pack

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Toxoplasma gondii is a ubiquitous protozoan parasite that can infect any warm-blooded species. In lab studies, infection with T. gondii has been shown to increase dopamine and testosterone levels along with risk-taking behaviors in hosts including rodents, chimps, and hyenas. Oh, and humans.

But its effects have not really been studied in the wild, so some researchers decided to assess how infection impacts gray wolves in Yellowstone National Park. They found that “the odds that a seropositive [infected] wolf becomes a pack leader is more than 46 times higher than a seronegative wolf becoming a pack leader.”

In the wild

Serum samples have been taken from the wolf packs in Yellowstone since 1995. These scientists assayed samples from 229 individual wolves taken over the years—116 males, 112 females, and one hermaphrodite—to try to correlate the presence of antibodies against the parasite with demographic factors and specific behaviors. (The relationship between antibodies and infection is complicated, given that the parasite can persist at low levels indefinitely after infections.)

Gray wolves and cougars are intermediate hosts and definitive hosts, respectively, of T. gondii, meaning the parasite grows to sexual maturity in wolves but needs to infect cougars to reproduce sexually. The two carnivores have some overlapping territory within Yellowstone, especially along its northern edge, and they compete for the same prey. Living in an area of high cougar overlap was the single biggest predictor of a wolf being infected with the parasite, more than any demographic factors like the wolf’s age, sex, or coat color.

Wolves with antibodies against the parasite were significantly more likely to disperse (leave their packs and set out on their own) and to become pack leaders. Pursuing both of these courses of action constitutes aggressive and risky wolf behavior, and they represent the two biggest decisions in a wolf’s life.

Parasites in charge?

Because gray wolves live together in groups, pack leaders have a disproportionate effect on their collective decisions. An infected leader may increase the overall number of infected wolves, both because pack leaders have a reproductive advantage and because risk-taking leaders might be less hesitant to lead their packs into cougar territory, where they can pick up their own infections.

Plus, wolves are social creatures who learn from and emulate their leader’s behaviors. So T. gondii-infected, aggressive, risk-taking pack leaders can yield “a more assertive, risk-embracing pack culture even though only a few key individuals are actually infected.”

Of course, increased engagement in risky behaviors is dangerous, so some of these hyper-aggressive wolf leaders and the packs that copy them are more likely to get themselves killed. Regardless, the selfish genes dictating their behaviors and their fates aren’t even their own genes. Parasites are the puppeteers.

communications biology, 2022. DOI: 10.1038/s42003-022-04122-0

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Health

Wolves infected with a common parasite may be much more likely to become pack leaders

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Schematic of results from both the demographic and the behaviour analysis. Displayed at the top are three sample packs with different cougar overlap categories and their corresponding predicted probabilities of T. gondii infection (seronegative in black; seropositive in red) based on the best-fit demographic model. Red-filled wolves indicate the expected percent of infected wolves out of 100%. Cougar density ≥1.8/100km2 is depicted with hatch-marks. Cougar density below 1.8/100km2 is all the area outside of the hatch-marks. At the bottom are the predicted probabilities with 95% confidence intervals (gray lines) based on the best-fit behaviour models, of two risky behaviours: dispersing and becoming a pack leader for seronegative and seropositive wolves at 24.9 months monitored (the average number of months wolves in this study were monitored). Credit: Kira Cassidy

A team of researchers with the Yellowstone Wolf Project at the Yellowstone Center for Resources, in Yellowstone National Park, in Wyoming, has found that wolves in the park who become infected with Toxoplasma gondii, a common parasite, are much more likely to become leaders of their pack. In their study, reported in the journal Communications Biology, the group analyzed data from studies of the wolves in the park over a 26-year period.

T. gondii is an obligate parasite that infects the protozoa in cells of infected animals. Such infections are known as toxoplasmosis, and they occur in almost all warm-blooded animals, including humans. Prior research has shown that in most cases, symptoms are few, through there is some evidence that suggests that they can lead to an increase in erratic or aggressive behavior.

In this new effort, the researchers wondered what sort of impact of T. gondii infections might have on wild wolves. To find out, they conducted an extensive study of wolves living in Yellowstone National Park.

The work involved studying data from blood samples taken from over 200 wolves living in the park over the years 1995–2020, while looking for evidence of infection. The researchers also looked at the notes made by research observers to learn more about any behavior changes that might have been evident in the wolves.






Members of the Junction Butte Wolf pack pass by a trail camera. This video displays the slight differences that can be observed in wolf behavior between individuals. Credit: Yellowstone Cougar Project

The researchers found that young, infected wolves tended to leave their packs earlier than those uninfected. Infected males were 50% more likely to leave their pack as early as six months after birth. Males normally stay for up to 21 months. And infected females were 25% more likely to leave their pack at 30 months, rather than the normal 48.

The researchers also found that infected males were more than 46 times more likely to become pack leaders than uninfected males. The researchers also found that infection rates were higher in wolves that mingled with cougars. The researchers suggest the differences in behavior were likely due to the impact of the parasite on the brains of wolves, making them bolder and less likely to back down when challenged by others.

More information:
Connor J. Meyer et al, Parasitic infection increases risk-taking in a social, intermediate host carnivore, Communications Biology (2022). DOI: 10.1038/s42003-022-04122-0

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Health

Wolves emboldened by parasite more likely to lead pack: study

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Paris (AFP) – Wolves infected with a common parasite are far more likely to become the leader of their pack, according to a new study, suggesting that the brain-dwelling intruder emboldens its host to take more risks.

The single-celled parasite, Toxoplasma gondii, only sexually reproduces in cats but can infect all warm-blooded animals.

Between 30-50 percent of people worldwide are estimated to be infected with the parasite, which remains for life as dormant tissue cysts. However people with a healthy immune system rarely have any symptoms.

While some studies have reported an association between people having the parasite in their brain and increased risk-taking, other research has disputed these findings and no definitive link has been proven.

The new study, published in the journal Communications Biology on Thursday, took advantage of 26 years’ worth of data on grey wolves living in the Yellowstone National Park in the United States to investigate how the parasite could affect their behaviour.

The researchers from the Yellowstone Wolf Project analysed the blood samples of nearly 230 wolves and 62 cougars — the big cats are known spreaders of the parasite.

They found that infected wolves were more likely to foray deeper into cougar territory than uninfected wolves.

Infected wolves were also 11 times more likely to leave their pack than wolves without the parasite, the study said, indicating a higher rate of risk-taking.

And an infected wolf is up to 46 times more likely to become pack leader, the researchers estimated, adding that the role is normally won by more aggressive animals.

Study co-author Kira Cassidy told AFP that while “being bolder is not necessarily a bad thing,” it can “lower survival for the most bold animals as they might make decisions that put them in danger more often.”

“Wolves do not have the survival space to take too many more risks than they already do.”

Cassidy said it was only the second study on T. gondii’s effect on a wild animal, after research last year found increased boldness in infected hyena cubs made them more likely to get closer to — and killed by — lions in Kenya.

Laboratory research has also found that rodents with the parasite lose their instinctual fear of cats — driving them into the hands of the only host where T. gondii can reproduce.

William Sullivan, a professor of pharmacology and toxicology at the Indiana University School of Medicine who has been studying T.gondii for more than 25 years, called the wolf paper “a rare gem”.

However he warned that such an observational study could not show causation.

“A wolf that is a born risk-taker may simply be more likely to venture into cougar territory and contract Toxoplasma,” he said.

But “if the findings are correct, they suggest we may be underestimating the impact Toxoplasma has on ecosystems around the world,” he added.

What about humans?

“That’s the million-dollar question,” Sullivan said, adding that “no one knows for sure and the literature is mixed”.

Ajai Vyas, a T. gondii expert at Singapore’s Nanyang Technological University, warned against inferring that infection could increase risk-taking in people.

“There is a lot about human behaviour that is different from other animals,” he told AFP.

People often get infected by T. gondii from eating undercooked meat — or via their pet cat, particularly when cleaning out their litter boxes.

In some cases, especially in people with weakened immune systems, T. gondii can lead to toxoplasmosis, a disease that can cause brain and eye damage.

© 2022 AFP

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Health

A parasite makes wolves more likely to become pack leaders | Science

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Toxoplasma gondii is sometimes called the “mind control” parasite: It can infect the brains of animals and mess with their behavior in ways that may kill the host but help ensure the parasite’s spread. But now, researchers have found that infected wolves may actually benefit from those mind-altering tricks. A Toxoplasma infection, they found, makes wolves bolder and more likely to become pack leaders or disperse into other habitats, giving them more opportunity to reproduce.

“We’ve really underestimated some of the consequences this parasite has,” says Eben Gering, a biologist at Nova Southeastern University who was not involved in the work. “The findings probably represent the tip of the iceberg concerning the parasite’s significance to the dynamics of wild ecosystems.”

T. gondii, a single-celled parasite, only reproduces in domesticated cats and other felids. Infected cats excrete spore-packed oocysts in their feces, which can survive on plants or in soil or water. They can also persist in undercooked meat of livestock or game. When a host—humans included—consumes an oocyst, the spores are released and spread into the brain and muscles, forming new cysts. Worldwide, about one in four people is infected. Usually, the immune system keeps the parasite in check, but it can cause spontaneous abortion and other serious problems during pregnancy.

It’s long been known that rodents infected with Toxoplasma lose their fear of predators. Cysts in the brain somehow increase dopamine and testosterone, boosting boldness and risk-taking and increasing the chance the host will be eaten by cats. “These parasites are using some generic mind control or personality control that helps them fulfill their lifecycle,” says Jaap de Roode, a biologist at Emory University who was not involved in the new study. “And that has all sorts of interesting consequences that we may not even have thought of before.”

The consequences aren’t limited to rodents. In 2016, researchers in Gabon found that Toxoplasma-infected captive chimpanzees lost their aversion to leopard urine. And last year, another team described how Toxoplasma-infected hyena cubs in Kenya venture closer to lions, making them more likely to be killed.

When researchers learned a few years ago that some wolves in Yellowstone National Park were infected with Toxoplasma, Connor Meyer, a Ph.D. student at the University of Montana, teamed up with park biologist Kira Cassidy to see if the parasite alters wolf behavior, as well.

Meyer and Cassidy pored over 26 years of research on the park’s gray wolves, including Toxoplasma test results from blood samples collected in various park regions. They also examined data on cougars, in which Toxoplasma can reproduce. Wolves that ranged into areas with lots of cougars were more likely to be infected with Toxoplasma, they found. It’s likely, the authors say, that these wolves picked up their infections from the cougars, possibly by poking around or eating the big cats’ scat.

By combining infection data and past field observations, they also discovered that infected wolves were much more likely to become pack leaders, the team reports today in Communications Biology. Infected wolves were also more likely to leave their pack at a younger age and seek out new territory or other packs, just as infected rodents become more eager to explore. “There might be a few cases where wolves or even their pack becomes really successful because they’re pushing these boundaries and being more risk-embracing,” Cassidy says.

The study is one of very few that examine Toxoplasma in the wild. “We know that infection can change animal behavior, but it’s very hard to document that in wildlife populations,” says Meggan Craft, a wildlife disease ecologist at the University of Minnesota. “What’s cool about this study is that it leverages a fabulous long-term study to be able to tease apart these subtle impacts of infection and behavior.”

As with rodents, boldness in wolves comes with risks, too. Wolves roaming widely might be more likely to get hit by a car or leave the park boundaries and be shot by hunters. “Dispersal is one of the most dangerous things a wolf can do,” Meyer says. It’s also possible that an infected pack leader might transmit the parasite when mating, as can happen in dogs, potentially jeopardizing a pregnancy. On balance, Cassidy suspects the infection’s risks probably outweigh the benefits in the long term. “Wolves live on a knife edge of survival to begin with,” Cassidy says.

Because wolves are one of the park’s keystone species, this parasite “can really have very important impacts on ecosystems,” de Roode says. “They can control food webs; they can control the energy flow within ecosystems.”

Infected pack leaders could even influence uninfected wolves, the researchers speculate in their paper. Members of the pack may imitate their leader’s boldness or curiosity about cougar smells, leading to more wolves becoming infected. “This is a brilliant idea, and I find it highly likely,” Gering says.  

Ultimately, the wolves appear to be a dead-end host to Toxoplasma, however, as they are unlikely to pass the parasite back to cougars. Yet Meyer wonders whether the parasite’s effect on wolves means the animals did play a part in the cycle of infection at some point in the distant past. During the last ice age, he notes, large lions roamed North America that may have preyed upon these infected—and emboldened—beasts.

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Health

Parasite gives wolves what it takes to be pack leaders

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Wolves infected with a common parasite are more likely than uninfected animals to lead a pack, according to an analysis of more than 200 North American wolves1. Infected animals are also more likely to leave their home packs and strike out on their own.

The parasite, Toxoplasma gondii, makes its hosts bold — a mechanism that increases its survival. To reproduce sexually, T. gondii must reach the body of a cat, usually when its host is eaten by one. That becomes much more likely if the parasite alters the host’s behaviour, making it foolhardy. Research results are mixed, but in rodents, infection generally correlates with decreased fear of cats and increased exploratory behaviour. Physical and behavioural changes have also been found in people: testosterone and dopamine production is increased and more risks are taken.

Warm-blooded mammals can catch the parasite by eating an infected animal or ingesting forms of T. gondii shed in the faeces of infected cats. After a period of acute infection, semi-dormant cysts form in muscle and brain tissue, and persist for the rest of the host’s life. Up to one-third of humans might be chronically infected.

Unique data set

T. gondii is known to infect wildlife, but few studies have examined its behavioural infects. In one work, infected hyenas in Kenya became more likely to be eaten by lions2. Connor Meyer and Kira Cassidy, wildlife ecologists at the University of Montana in Missoula, thought of a rare opportunity to link infection with behaviour in wild wolves: data on grey wolves (Canis lupus) collected intensively in Yellowstone National Park, Wyoming, over nearly 27 years. Some wolves in Yellowstone live near, and sometimes steal prey from, cougars (Puma concolor), which are known to carry the parasite. Wolves could become infected by eating the cats — or their faeces.

The team looked at 256 blood samples from 229 wolves, which had been carefully watched throughout their lives, and had their life histories and social status recorded. Meyer and Cassidy found that infected wolves were 11 times more likely than uninfected ones to leave their birth family to start a new pack, and 46 times more likely to become pack leaders — often the only wolves in the pack that breed.

“We got that result and we just open-mouth stared at each other,” Meyer says. “This is way bigger than we thought it would be.” The work is published today in Communications Biology.

Dan Macnulty, a wolf biologist at Utah State University in Logan, says the study “provides compelling evidence of the profound influence that pathogens can have on the ecology and behaviour of wild animal populations”. He adds that it demonstrates the immense value of the long-term study of wolves and other wildlife in Yellowstone National Park.

Ecosystem effects

In future, the team hopes to look at whether infection might make wolves more likely to reproduce successfully — and what the ripple effects of low or high infection rates might be across ecosystems. Wolf populations with high rates of T. gondii infection might expand more quickly across a landscape as individual wolves make the choice to disperse. Aggressive and risk-taking pack leaders could influence how entire packs act — possibly even increasing their chances of encountering cougars and exposing more members to infection.

For Meyer, the moral of the story is that parasites can be major players in ecosystems. “Parasites might have a much larger role than anyone generally gives them credit for,” he says.

Wolves are known for killing cougars, however, so even bold, risk-taking wolves infected with the parasite are not likely to end up as lunch for a cougar, Meyer says. He speculates that in the past, infected wolves could have been more likely to be preyed on by American lions (Panthera atrox), massive feline predators weighing around 200 kilograms, which prowled North America until they went extinct over 11,000 years ago.

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Health

Grey wolves infected with this parasite are more likely to become pack leaders, scientists say

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Researchers studying grey wolf populations in Yellowstone National Park have discovered an intriguing reason why some wolves may be more inclined to become pack leaders.

Grey wolves exposed to Toxoplasma gondii — the parasite that causes the disease toxoplasmosis — are more than 46 times more likely to become a pack leader than uninfected wolves, according to a study published Thursday in Communications Biology.

The researchers analyzed behavioral and distribution data from 1995 to 2020 as well as blood samples from 229 anaesthetized wolves to study the association between risk-taking behaviors and infection with Toxoplasma gondii. They identified associations between parasite infection and high-risk behaviors in both males and females.

Members of the Junction Butte Wolf pack pass by a trail camera in Yellowstone National Park on March 12, 2019.

Yellowstone Cougar Project

Wolves that tested positive for T. gondii were 11 times more likely to disperse from their pack and more than 46 times more likely to become a pack leader than uninfected wolves, according to the findings. Males were 50% more likely to leave their pack within a six-month period if infected with the parasite but that length of time jumped to 21 months if unaffected. Females displayed a 25% chance of leaving their pack within 30 months if infected, extending to 48 months if uninfected.

Infection with T. gondii often has no negative effects on the fitness of healthy individuals but can be fatal to young or immunosuppressed wolves, according to the researchers. They don’t yet know how this parasite influences things like survival rates, according to Connor Meyer, a wildlife biology Ph.D. student at the University of Montana and one of the authors of the study.

The findings are the first to demonstrate parasite infection affecting decision-making and behavior in the species, the researchers said.

Previous research has identified associations between T. gondii infection and increased boldness in hyenas as well as increased testosterone production in rats, the authors speculate that similar mechanisms could drive the risky behaviors observed in wolves that tested positive for the parasite.

The wolves occupying areas that overlapped with a higher population density of cougars were more likely to be infected with T. gondii than those not living near cougars, suggesting that wolves may become infected with the parasite as a result of direct contact with cougars and their environments, the researchers found. Cougars in Yellowstone National Park are known to be hosts of the parasite.

Alpha wolf male from the Canyon Pack in Yellowstone National Park, on Nov. 25, 2019.

Neal Herbert/NPS

The findings “tell the story of this entire ecosystem and how species interact with each other,” said Kira Cassidy, one of the authors and a research associate for Yellowstone National Park and Yellowstone Forever, a nonprofit associated with the national park.

The researchers hypothesized that the infection would have wider implications on the wolf population, as infected pack leaders could lead their packs into more high-risk areas that overlap with cougars, potentially increasing the risk of further infection for uninfected wolves.

“So that’s probably the the link there with the actual mechanism behind the parasite and the infection,” Meyer said.

Nine wolves interact on top of crusty snow in Yellowstone National Park on Nov. 21, 2019.

Doug Smith/NPS

The study, only the second of its kind to look at how a toxoplasmosis infection can affect a species of predators, is a “powerful kind of testament to what long-term research is able to answer,” Meyer noted.

Added Cassidy: “Taking an ecosystem approach to a research question can be really difficult in a lot of places but Yellowstone is one of these places where we see all of the species that were here hundreds of years ago.”

Grey wolves were widely eradicated in the western U.S. in the 1940s but populations have begun to rebound in recent decades. Some say the increase is detrimental to humans due to the wolves’ ability to travel vast distances and therefore spread diseases. The wolves can also be a significant factor in the decline of big game herds and the killing of livestock.

Earlier this month, a federal judge in Montana temporarily restricted wolf hunting and trapping near Yellowstone and Glacier National Parks.

Close up of the face of a grey wolf in Yellowstone National Park on Nov. 7, 2017.

Jacob W. Frank/NPS

Wolves, however, are typically cautious of people. At Yellowstone, they are “the most shy and cautious” of all the large mammals, Cassidy said.

“If you see one, you’re incredibly lucky,” she said. “I would say overall, they are essentially no danger to people.”

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Entertainment

[VIDEO] ‘Wolf Pack’ Release Date, Teaser Trailer For Paramount+ Series

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The next generation of teen wolves is making tracks for Paramount+.

Wolf Pack, a new series written and executive-produced by Jeff Davis (Teen Wolf) will become available to Paramount+ subscribers on Thursday, Jan. 26 — the same day as Teen Wolf: The Movie. The news was announced Friday during the show’s panel at New York Comic Con.

Based on Edo Van Belkom’s book series, Wolf Pack “follows a teenage boy and girl whose lives are forever changed when a California wildfire awakens a terrifying supernatural creature,” per the official logline. “Wounded in the chaos of its attack, the teens are inexplicably drawn to each other and to two others who were adopted sixteen years earlier by a park ranger after another mysterious wildfire. As the full moon rises, all four teens come together to unravel the secret that connects them — the bite and blood of a werewolf.”

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Wolf Pack stars Sarah Michelle Gellar (Buffy the Vampire Slayer) as arson investigator Kristin Ramsey, described as a “highly regarded expert in her field and no stranger to personal loss, brought in by authorities to catch the teenage arsonist who started a massive wildfire which may have also led to the reawakening of a supernatural predator terrorizing Los Angeles.”

Another familiar face will be that of Rodrigo Santoro (Lost) as Garrett Briggs, a Los Angeles park ranger “dedicated to protecting the environment, and adoptive father to the remarkable teenagers. A man of strong values, he is also someone with dark secrets and deep suspicions, especially towards anyone questioning the relationship with his children who were found in the wildfire years earlier.”

The four aforementioned teens are Armani Jackson (Chad) as Everett, Bella Shepard (The Wilds) as Blake, Chloe Rose Robertson as Luna, and Tyler Lawrence Gray as Harlan.

As revealed during the panel, the following actors are also joining in recurring roles: Bailey Stender (iCarly), Chase Liefeld (Chang Can Dunk), Hollie Bahar (Westworld), Lanny Joon (Baby Driver), Rio Mangini (Everything Sucks), Stella Smith (Stargirl), Zack Nelson (Loot) and James Martinez (Love, Victor). Other guest stars will include Amy Pietz (Caroline in the City), Bria Brimmer (Doom Patrol), John L. Adams (The Dead Zone) and Sean Philip Glasgow (Diary of a Future President).

In addition to Davis, Wolf Pack is executive-produced by Jason Ensler, and Joe Genier and Mike Elliott for Capital Arts.

Hit PLAY on the show’s first teaser above, then drop a comment with your thoughts on Wolf Pack below.



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