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These club cell-secreted factors are able to nullify immune suppressor cells that otherwise help tumors escape an effective antitumor response,” said co-senior author Dr. Vivek Mittal, director of research at the Neuberger Berman Lung Cancer Center and the Ford-Isom Research Professor of Cardiothoracic Surgery at Weill Cornell Medicine. “We’re excited by the possibility of developing these club cell factors into a cancer treatment.

Malignant tumors can enhance their ability to survive and spread by suppressing antitumor immune cells in their vicinity, but a study led by researchers at Weill Cornell Medicine and NewYork-Presbyterian has uncovered a new way to counter this immunosuppressive effect.

In the study, published Sept. 20 in Nature Cancer, the researchers identified a set of anti-immunosuppressive factors that can be secreted by called cells that line airways in the lungs. They showed in a mouse model of lung cancer that these club cell factors inhibit highly potent immunosuppressive cells called myeloid-derived suppressor cells (MDSCs), which tumors often recruit to help them evade antitumor immune responses.

The inhibition of the MDSCs led to an increase in the number of antitumor T cells at the tumor site, and greatly improved the effectiveness of FDA approved PD1 immunotherapy.

Continue reading “Scientists find a new way to reverse immune suppression in tumors” | >

As this is the first report of neuro-inflammation in Kleefstra syndrome, the next step is to find out if it also occurs in the human condition. Shinkai believes the chances are high and says he would not be surprised if other neurological diseases caused by epigenetic dysregulation were also related to abnormal inflammation in the brain.

Researchers at the RIKEN Cluster for Pioneering Research (CPR) in Japan report that Kleefstra syndrome, a genetic disorder that leads to intellectual disability, can be reversed after birth in a mouse model of the disease. Published in the scientific journal iScience, the series of experiments led by Yoichi Shinkai showed that postnatal treatment resulted in improved symptoms, both in the brain and in behavior.

Normally, we get two good copies of most genes, one from each parent. In Kleefstra , one copy of the EHMT1 gene is mutated or missing. This leads to half the normal amount of GLP, a protein whose job is to control genes related to brain development through a process called H3K9 methylation. Without enough GLP, H3K9 methylation is also reduced, and the connections between neurons in the brain do not develop normally. The result is and autistic-like symptoms. “We still don’t know if Kleefstra syndrome is a curable disease after birth or how this epigenetic dysregulation leads to the ,” says Shinkai. “Our studies in have provided new information about what causes the behavioral abnormalities associated with the syndrome and have shown that a cure is a real possibility in the future.”

Reasoning that extra GLP might be an , the researchers performed a series of experiments in mice that were engineered to have only one good copy of the EHMT1 gene. The brains of these mice show characteristics of the human condition, including 40% less GLP and 30% less H3K9 methylation. The mice also display several behaviors seen in humans with Kleefstra syndrome, such as reduced locomotion and greater anxiety. After each experiment, the researchers measured these factors and compared them to normal mice to see if the treatment had been effective.

Continue reading “A genetic brain disease reversed after birth” | >

New technique delivers resolution improvement in ultrafast processes.

An international consortium of scientists, initiated by Reinhard Kienberger, Professor of Laser and X-ray Physics at the Technical University of Munich (TUM), several years ago, has made significant measurements in the femtosecond range at the U.S. Stanford Linear Accelerator Center (SLAC).

However, on these minuscule timescales, it is extremely difficult to synchronize the X-ray pulse that sparks a reaction in the sample on the one hand and the laser pulse which ‘observes’ it on the other. This problem is called timing jitter, and it is a major hurdle in ongoing efforts to perform time-resolved experiments at XFELs with ever-shorter resolution.

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I tried to warn them.-Elon Musk.

Elon Musk has warned humanity many times about the dangers of superhuman AI. He thinks the advent of digital superintelligence will bring about profound changes to human civilization. Elon Musk thinks the technological singularity could either be super beneficial or it could be terrible for our society. Elon said that no one knows for sure the impact superhuman AI will have on our world but that one thing is for certain: We will not be able to control it. He thinks artificial intelligence will be used as a weapon and warns that the lack of AI regulation could mean it’s already too late for humanity.

Elon Musk now has adopted a “fatalistic” attitude towards the AI control problem because he feels that nothing is being done to try to mitigate the negative effects of future AI systems.

Continue reading “I Tried Warning Them — Elon Musk on Superhuman AI” | >

SpaceX successfully sent four space tourists on a three day joyride around the Earth inside its Crew Dragon spacecraft last week — and the mission has sent demand soaring, according to the company.

“The amount of people who are approaching us through our sales and marketing portals has actually increased significantly,” the company’s senior director of human spaceflight programs Benji Reed revealed during Saturday’s press conference, as quoted by Ars Technica. “There’s tons of interest rolling in now.”

Even more excitingly, Reed says that the company’s much, much bigger spacecraft Starship may also be destined to launch tourists, a massive upgrade that could allow significantly more passengers to embark on an extremely expensive trip to space.

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What must the US do Eric Klien?

Read More: How China’s Digital Currency Could Challenge the Almighty Dollar

China has already largely moved away from coin and paper currency; Chinese consumers have racked up more than $41 trillion in mobile transactions, according to a recent research paper from the Brookings Institution, with the lion’s share (92%) going through digital payment processors WeChat Pay and Alipay.

“The reason you could say the U.S. is behind in the digital currency race is I don’t think the U.S. is aware there is a race,” Yaya Fanusie, an Adjunct Senior Fellow at the Center for a New American Security, and a former CIA analyst, tells TIME in an interview. “A lot of policymakers are looking at it and concerned…but even with that I just don’t think there’s this sense of urgency because the risk from China is not an immediate threat.”

Continue reading “The U.S. Is Losing the Global Race to Decide the Future of Money —and It Could Doom the Almighty Dollar” | >