帕米尔木灵藓和细齿木灵藓（木灵藓科）的形态特征及其在中国的新分布

该文报道了采自新疆的木灵藓属中国2个新记录种——帕米尔木灵藓(Orthotrichum pamiricum)和细齿木灵藓(O.scanicum)。帕米尔木灵藓的识别特征为:叶尖钝,气孔隐型,多着生于孢蒴下部,外齿层齿片8对,干燥时蒴齿背曲,内齿层蒴条16,上部内曲;细齿木灵藓的识别特征为:叶尖部具细齿,气孔半隐型,蒴帽具分散的透明毛,内齿层和外齿层均16片,具8条黄色细沟,干燥时中部以上具沟。对这2种藓类的形态特征、生境和地理分布及与其相似种的形态学进行了比较分析,并绘制了每种的形态结构墨线图。木灵藓属植物在中国的新分布记录进一步表明,新疆地区富含生物多样性,并与中亚植物区系存在密切关系。     

A novel inhibitor of the insulin/IGF signaling pathway protects from age‐onset,neurodegeneration‐linked proteotoxicity

Aging manipulation is an emerging strategy aimed to postpone the manifestation of late‐onset neurodegenerative disorders such as Alzheimer's (AD) and Huntington's diseases (HD) and to slow their progression once emerged. Reducing the activity of the insulin/IGF signaling cascade (IIS), a prominent aging‐regulating pathway, protects worms from proteotoxicity of various aggregative proteins, including the AD‐associated peptide, Aβ‐ and the HD‐linked peptide, polyQ40. Similarly, IGF1 signaling reduction protects mice from AD‐like disease. These discoveries suggest that IIS inhibitors can serve as new drugs for the treatment of neurodegenerative maladies including AD and HD. Here, we report that NT219, a novel IIS inhibitor, mediates a long‐lasting, highly efficient inhibition of this signaling cascade by a dual mechanism; it reduces the autophosphorylation of the IGF1 receptor and directs the insulin receptor substrates 1 and 2 (IRS 1/2) for degradation. NT219 treatment promotes stress resistance and protects nematodes from AD‐ and HD‐associated proteotoxicity without affecting lifespan. Our discoveries strengthen the theme that IIS inhibition has a therapeutic potential as a cure for neurodegenerative maladies and point at NT219 as a promising compound for the treatment of these disorders through a selective manipulation of aging.     

Modulation of caveolae by insulin/IGF‐1 signaling regulates aging of Caenorhabditis elegans

Reducing insulin/IGF‐1 signaling (IIS) extends lifespan, promotes protein homeostasis (proteostasis), and elevates stress resistance of worms, flies, and mammals. How these functions are orchestrated across the organism is only partially understood. Here, we report that in the nematode Caenorhabditis elegans, the IIS positively regulates the expression of caveolin‐1 (cav‐1), a gene which is primarily expressed in neurons of the adult worm and underlies the formation of caveolae, a subtype of lipid microdomains that serve as platforms for signaling complexes. Accordingly, IIS reduction lowers cav‐1 expression and lessens the quantity of neuronal caveolae. Reduced cav‐1 expression extends lifespan and mitigates toxic protein aggregation by modulating the expression of aging‐regulating and signaling‐promoting genes. Our findings define caveolae as aging‐governing signaling centers and underscore the potential for cav‐1 as a novel therapeutic target for the promotion of healthy aging.     

The significance of subclavian artery injection prior to surgical myocardial revascularization

Successful arterial revascularization using the internal thoracic artery is dependent on unobstructed inflow through the subclavian artery. Systematic physical examination should discover subclavian stenosis; however, simple routine injection into the orifice of the subclavian artery during the diagnostic catheterization may avoid a catastrophic outcome.