The US Food and Drug Administration (FDA) has approved Tonix Pharmaceuticals’ Tonmya (cyclobenzaprine HCl, formerly known as TNX-102 SL), a novel treatment form for fibromyalgia.1 The drug is now the first in a new category of non-opioid analgesics for fibromyalgia and the first new medication for this disorder in 15 years.

The FDA’s approval cited efficacy from 2 double-blind, randomized, placebo-controlled, phase 3 clinical trials of almost 1,000 patients that evaluated Tonmya as treatment for fibromyalgia. Across both phase 3 trials, Tonmya significantly reduced daily pain scores compared with placebo at the primary endpoint of 14 weeks. In these trials, a greater percentage of patients taking Tonmya experienced a clinically meaningful (≥30%) improvement in their pain after 3 months, as compared with placebo. Across phase 3 clinical trials with over 1,400 patients evaluated, Tonmya was generally well tolerated. The most common adverse events (incidence ≥2%) included oral hypoesthesia, oral discomfort, abnormal product taste, somnolence, oral paresthesia, oral pain, fatigue, dry mouth, and aphthous ulcer.

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Scientists have uncovered dementia-like behavior in pancreas cells at risk of turning into cancer. The findings provide clues that could help in the treatment and prevention of pancreatic cancer, a difficult-to-treat disease linked to 6,900 deaths in the UK every year.

The research was published in the journal Developmental Cell in a paper titled “ER-phagy and proteostasis defects prime pancreatic epithelial state changes in KRAS-mediated oncogenesis.”

Researchers from the Cancer Research UK Scotland Center studied pancreas cells in mice over time, to see what was causing healthy cells to turn into cancer cells. They discovered that pancreatic cells at risk of becoming cancerous, known as pre-cancers, develop faults in the cell’s recycling process (known as “autophagy”).

Researchers from ShanghaiTech University, including Zhen-Ge Luo, used brain organoids derived from individuals with fAD to examine disease-related changes that occur during early brain development. The organoids, which are lab-grown models of human brain tissue, displayed several features associated with AD: elevated amyloid protein accumulation, a reduction in mature neurons, increased cell death and gene expression differences relative to healthy controls.

Role of thymosin β4 in brain pathology

Among the differentially expressed genes, the researchers identified TMSB4X, which encodes thymosin β4 (Tβ4), a protein with anti-inflammatory properties. TMSB4X expression was reduced in both the fAD organoids and in neurons from post-mortem samples of individuals with AD, suggesting a possible link between lower Tβ4 levels and disease pathology.