Over the past several decades, researchers have identified the genes and proteins in plants that initiate the cellular self-destruct sequence. During that time, they also found shared elements of this “resistome” at work in mammalian.

Plant nucleotide-binding leucine-rich repeat (NLR) immune receptors detect pathogen effectors and activate immunity. Coiled-coil NLRs (CNLs) form resistosomes as Ca2+-permeable channels in the plasma membrane (PM). However, the mechanism by which resistosomes activate cell death remains unclear.

The ring, which resembles a wreath or a necklace, the author said, is a combination of proteins that bind to a cell membrane and six channels that orient themselves to run through the membrane. The team made this discovery working with Arabidopsis and Nicotiana bethamaian, popular plant model systems, and a high resolution total internal reflection fluorescence microscope.

The authors show that the CNL SUPPRESSOR OF mkk1 mkk2 2 (SUMM2), unlike canonical CNLs that use a MADA motif to penetrate the PM, tethers to the PM through N-myristoylation, a common feature among many CNLs.

PM targeting via N-myristoylation is essential for SUMM2-induced cell death. Upon activation, SUMM2 promotes the association of the lipase-like proteins ENHANCED DISEASE SUSCEPTIBILITY 1 (EDS1) and PHYTOALEXIN DEFICIENT 4 (PAD4) with the helper NLR-ACTIVATED DISEASE RESISTANCE 1-LIKE 1 (ADR1-L1).

Active SUMM2 induces the clustering of multiple ADR1-L1 resistosomes into a ring-like assembly colocalized with the EDS1–PAD4 complex, and the EDS1–PAD4–ADR1 module is essential for SUMM2-activated cell death.

The finding invites new questions about what exactly the rings do and how they do it. The team’s current hypothesis is that the rings enable communication with nearby cells, sending inflammation signals that can help initiate cell death in a targeted way. ScienceMission sciencenewshighlights.

A man-made food source provided honey bees a nutritious diet at a commercial scale over the course of two winter seasons, according to a new study led by Washington State University researchers. The study, published in the journal Insects, looked at the new feed as used by five commercial beekeepers in California and Idaho from fall 2022 to spring 2024. This study is a follow-up to an initial paper describing the bee feed.

The nutritionally complete feed, which resembles an oversized, very thin granola bar, was developed by APIX Biosciences, a biotech company based in Belgium with a U.S. subsidiary. The company worked with WSU’s Honey Bee Program to test the nutritional supplement.

“The first paper was a trial during the spring and summer pollination season to make sure the feed worked in real-world field conditions,” said Brandon Hopkins, WSU’s P.F. Thurber Endowed Distinguished Professor of Pollinator Ecology and a corresponding author on the paper. “This study happened during the other half of the year when beekeepers tend to see the biggest losses and depend the most on supplemental feeding. It was also done on a significantly larger scale than our previous study.”

“These findings indicate the clinical potential of cannabinoids as a promising therapeutic alternative for managing TMD…” [ https://www.labroots.com/trending/cannabis-sciences/30277/ca…ial-pain-2](https://www.labroots.com/trending/cannabis-sciences/30277/ca…ial-pain-2)

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Temporomandibular Disorder (TMD) consists of a myriad of conditions causing jaw pain and dysfunction and the muscles controlling jaw movement. One type of pain is myofascial pain, which is associated with deep, aching muscle pain around the jaw, often resulting in later neck and shoulder pain. Traditional treatments include self-care like eating soft foods and over-the-counter anti-inflammatories. But how can Delta-9-Tetrahydrocannabinol (THC) and Cannabidiol (CBD) be used to relieve myofascial pain in patients suffering from TMD?

Now, a team of researchers from Brazil might be one step closer to better understanding the role of cannabis in treating myofascial pain. For their study, which was recently published in the journal Clinics, the team investigated how a combination of THC and CBD drug therapy could be used to not only decrease myofascial pain while also enabling TMD patients to regain jaw function. Over a 90-day period, 20 adults suffering from myofascial pain due to TMD were given gradual increases of THC and CBD starting from 2mg and eventually 10mg near the end of the trial.

The goal of the study was to ascertain the role of THC and CBD on treating myofascial pain and improving jaw movement and function. In the end, the researchers found that not only did the participants report an approximate 90 percent reduction in pain, but they were able to open their jaws approximately 4 mm wider than before the THC/CBD treatment.