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GDF15 has potent anti-obesity effects, but its receptor was unknown. GFRAL has now been identified as the receptor and mediates GDF15's effects through central actions in the hindbrain.
GDF15 has potent anti-obesity effects, but its receptor was unknown. GFRAL has now been identified as the receptor that mediates GDF15's effects via central actions in the hindbrain.
Brain-region-specific RNA-seq from humans with major depressive disorder reveals unique transcriptomic profiles in males and females, with little overlap.
On the basis of new mechanistic studies of a mutant form of the apolipoprotein apoC-III that protects against coronary heart disease, Khetarpal et al. have developed therapeutic apoC-III-targeting monoclonal antibodies that lower circulating apoC-III protein and triglyceride levels in mice.
Mutations in SPOP, the gene encoding a component of the E3 ubiquitin ligase complex, impair ubiquitination-dependent degradation of BRD2, BRD3 and BRD4 proteins and result in activation of ATK–mTORC1 signaling and resistance to BET inhibitors. Pharmacological blockade of AKT represents a viable strategy to restore the sensitivity of SPOP-mutant prostate tumors to BET inhibitors. These results, together with findings by Dai et al. and Janouskova et al., uncover a new nongenetic mechanism of resistance to BET inhibition involving cancer-type-specific mutations in SPOP, and support the evaluation of SPOP mutation status to inform the administration of BET inhibitors in the clinic.
Different mutations found in endometrial and prostate tumors affecting the substrate-recognition domain of SPOP, a component of the E3 ubiquitin ligase complex, result in opposing degradation activity of BET proteins and response to BET inhibitors. This work, along with findings by Zhang et al. and Dai et al., highlights the divergent effects of recurrent mutations affecting different residues within the same functional domain of SPOP and provides scientific rationale to guide the administration of BET inhibitors in endometrial and prostate cancer patients harboring SPOP mutations.
Recurrent mutations in SPOP-encoding a Cullin 3-based E3 ubiquitin ligase- in prostate cancer disrupt the recognition and degradation of ubiquitination substrates, including BET proteins. Consequently, stability of BET proteins is enhanced and this increases the resistance to BET inhibitors in SPOP-mutant prostate tumors. These results, together with those in Janouskova et al. and Zhang et al., uncover a novel non genetic mechanism of resistance to BET inhibition involving cancer type-specific mutations in SPOP, and support the evaluation of SPOP mutations to inform the administration of BET inhibitors in the clinic.
Analysis of the ExAC and 1000 Genomes data sets estimates the impact of inter-individual variation on the efficacy and safety of therapies based on CRISPR endonucleases.
Charles Chiu and colleagues analyze the gut viromes of recipients of hematopoietic stem cell transplantation and identify characteristics associated with the severity of graft-versus-host disease in the gut.
IFITM3 encodes an antiviral protein that blocks entry of influenza A virus into cells. Paul Thomas and colleagues report that SNP rs34481144 in the 5′ UTR of IFITM3 is an expression quantitative trait locus for this gene and that the risk allele is associated with lower IFITM3 expression and severe influenza disease.
An HDR-independent therapeutic genome-editing approach corrected the splice-site mutation in Lama2 in a mouse model of congenital muscular dystrophy type 1A, and may be applied more broadly to correct splice-site mutations associated with other diseases.
Resistance to ERK signaling inhibitors in BRAFV600E-mutant melanomas and lung cancers is achieved by parallel convergent mechanisms, including amplification of the mutant allele in extrachromosomal elements, that allow tumors to adapt while maintaining their intratumor heterogeneity. Intermittent treatment with a combination of RAF, MEK and ERK inhibitors imposes a higher selective pressure than sequential therapy and produces the strongest antitumor effects while minimizing toxicity. These findings warrant evaluating the effectiveness of this combinatorial regimen in patients, to improve treatment responses and delay the emergence of drug resistance.
Number of IL-9-expressing ILC2s are elevated in patients with inflammatory arthritis during remission, and these cells are critical in mice for the resolution of inflammatory arthritis via regulatory T cell induction. Delivery of DNA minicircles encoding IL-9 into inflamed joints ameliorates mouse experimental arthritis, suggesting possible therapeutic applications.
The kinase Plk1 has been studied primarily as a mitotic regulator in dividing cells, but de Cárcer et al. find that Plk1 deficiency or inhibition in mice causes nonmitotic defects in the vasculature, including aortic aneurysm and rupture, as well as defective vascular smooth muscle contractility. These results recommend a note of caution in the clinical use of PLK1 inhibitors as anticancer agents.
In a rat model of hydrocephalus triggered by intraventricular hemorrhage, Kristopher Kahle and colleagues show that TLR4–NF-κB-dependent inflammatory signaling in the choroid plexus causes hypersecretion of cerebrospinal fluid that drives hydrocephalus. Targeting TLR4–NF-κB-mediated signaling or the NKCC1–SPAK complex ameliorates hydrocephalus.
Repair of defects in the common bile duct is hampered by a lack of healthy donor tissue. Developing human extrahepatic cholangiocyte organoids and testing them in mouse models may provide a way to overcome this limitation.