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Jan 15, 2024

Probing the chemical ‘reactome’ with high-throughput experimentation data

Posted by in categories: chemistry, robotics/AI

Using #AI to define the chemical “reactome”—the important functional sites in small molecules.


High-throughput experimentation (HTE) has great utility for chemical synthesis. However, robust interpretation of high-throughput data remains a challenge. Now, a flexible analyser has been developed on the basis of a machine learning-statistical analysis framework, which can reveal hidden chemical insights from historical HTE data of varying scopes, sizes and biases.

Jan 15, 2024

The Key Role of NAD+ in Anti-Tumor Immune Response: An Update

Posted by in category: biotech/medical

face_with_colon_three Year 2021


Nicotinamide adenine dinucleotide (NAD+) is an important molecule that functions as a co-enzyme in numerous metabolic processes. Generated both through de novo synthesis and via salvage pathways, NAD+ is the substrate for a variety of NAD+-consuming enzymes. Among them is CD38, a cell surface ecto-enzyme widely expressed on different types of cells and endowed with the function of cADP-ribose synthases/NAD+ glycohydrolase. Surface CD38 expression is increased in different hematological and solid tumors, where it cooperates with other ecto-enzymes to produce the immunosuppressive molecule adenosine (ADO). Few studies have explored the correlation of NAD+ levels with T-cell mediated anti-tumor response in preclinical models. We therefore discuss these novel findings, examining the possible contribution of NAD+ depletion, along with ADO production, in the immunosuppressive activities of CD38 in the context of human tumors. Lastly, we discuss the use of pharmacological inhibitors of CD38 and supplementation of different NAD+ precursors to increase NAD+ levels and to boost T cell responses. Such molecules may be employed as adjuvant therapies, in combination with standard treatments, for cancer patients.

Nicotinamide adenine dinucleotide (NAD+) and its reduced/phosphorylated forms (NADH, NADP+ and NADPH) are key molecules in cellular metabolism and energy production, acting as hybrid-accepting and hybrid-donating co-enzymes in different biological reactions. NAD+ and NADH are then inter-converted by hybrid transfer and not consumed. NAD+ can be generated de novo starting from tryptophan, which is converted to N-formylkynurenine by indoleamine dioxygenase or tryptophan dioxygenase. Other enzymes are involved in converting N-formylkynurenine to nicotinic acid mononucleotide (NaMN), which is adenylated by adenyl-transferases to generate nicotinic acid adenine dinucleotide (NaAD), finally converted to NAD+ by NAD+ synthetase. NAD+ can also be obtained through different salvage pathways, starting from nicotinic acid (Na) which is converted to NaMN by Na phosphoribosyltransferase (Naprt) or starting from nicotinamide (Nam) and nicotinamide riboside (NR).

Jan 15, 2024

In the future, we could treat microbiota to reduce the risk of pancreatic cancer development

Posted by in categories: biotech/medical, futurism

In this interview, Dr. Núria Malats from the Spanish National Cancer Research Centre (CNIO) shares promising advances regarding the relationship between gut microbiota and pancreatic cancer, unveiling exciting possibilities for early detection and personalized treatment.

Jan 15, 2024

Hodgkin lymphoma prognosis, biology tracked with circulating tumor DNA

Posted by in category: biotech/medical

Circulating tumor DNA predicts recurrence and splits disease into two subgroups in Stanford Medicine-led study of Hodgkin lymphoma. New drug targets or changes in treatments may reduce toxicity.

Jan 15, 2024

Novel regulator of immune evasion in cancer identified

Posted by in categories: biotech/medical, futurism

Northwestern Medicine investigators have identified a previously unknown regulator of tumor immune evasion, which may help improve the efficacy of current and future anti-tumor immunotherapies, according to recent findings published in the Journal of Clinical Investigation.

“The study provides a molecular insight into understanding why some cannot be treated by the checkpoint blockade antitumor therapy, but others can,” said Deyu Fang, Ph.D., the Hosmer Allen Johnson Professor of Pathology and senior author of the study.

Antitumor immunotherapy is a type of treatment that helps the immune system in fighting cancer and includes a range of therapy types, such as . Immune checkpoints help prevent the immune system from being too strong and eradicating other , including .

Jan 15, 2024

MIT AI models detect the most common type of pancreatic cancer earlier

Posted by in categories: biotech/medical, robotics/AI

MIT CSAIL scientists, using new AI models, have been successful at identifying potential high-risk patients of pancreatic cancer.

Jan 15, 2024

The Transformation of Labor Markets

Posted by in category: futurism

The forces reshaping labor markets will impact productivity, growth, inflation and deficits, creating a new set of winning and losing industries and countries.

Jan 15, 2024

Oral drug prevents death from COVID-19 in old mice by reversing immune aging

Posted by in category: biotech/medical

The immune system deteriorates with age, making COVID-19 particularly deadly in older people—but to date, no clinically available medication addresses this key risk factor. A study published today in Nature shows that an oral drug that reverses multiple aspects of immune aging effectively prevents death in a mouse model of COVID-19, suggesting that the medication could be used to protect the elderly patients who are at greatest risk in the pandemic.

In the study, daily doses of BGE-175 (asapiprant) protected aged mice from a lethal dose of SARS-CoV-2, the virus that causes COVID-19. Ninety percent of mice that received the drug survived, whereas all untreated control mice died. BGE-175 treatment was initiated two days after infection, when the mice were already ill, a time-frame relevant to real-life clinical situations in which patients would receive medication only after becoming symptomatic.

The mouse model used in the study closely mirrored the pathological progression of human COVID-19. The mouse-adapted strain of SARS-CoV-2 generated by the researchers caused a disease that shared many of the hallmarks of human COVID-19: accumulation of fluid in the air sacs of the lungs, extensive infiltration of lung tissue by , and high levels of pro-inflammatory factors called cytokines.

Jan 15, 2024

Chinese-developed nuclear battery has a 50-year lifespan — Betavolt BV100 built with Nickel-63 isotope and diamond semiconductor material

Posted by in categories: materials, nuclear energy

The design uses China’s first diamond semiconductor material.

Jan 15, 2024

With Artificial Intelligence, Philosophy of Mind Has Become an Experimental Science

Posted by in categories: robotics/AI, science, transportation

Time to move philosophers into the lab. AI is making theories of consciousness testable.