Critical contribution of RIPK1 mediated mitochondrial dysfunction and oxidative stress to compression-induced rat nucleus pulposus cells necroptosis and apoptosis

The aim of this study was to investigate whether RIPK1 mediated mitochondrial dysfunction and oxidative stress contributed to compression-induced nucleus pulposus (NP) cells necroptosis and apoptosis, together with the interplay relationship between necroptosis and apoptosis in vitro. Rat NP cells underwent various periods of 1.0 MPa compression. To determine whether compression affected mitochondrial function, we evaluated the mitochondrial membrane potential, mitochondrial permeability transition pore (mPTP), mitochondrial ultrastructure and ATP content. Oxidative stress-related indicators reactive oxygen species, superoxide dismutase and malondialdehyde were also assessed. To verify the relevance between oxidative stress and necroptosis together with apoptosis, RIPK1 inhibitor necrostatin-1(Nec-1), mPTP inhibitor cyclosporine A (CsA), antioxidants and small interfering RNA technology were utilized. The results established that compression elicited a time-dependent mitochondrial dysfunction and elevated oxidative stress. Nec-1 and CsA restored mitochondrial function and reduced oxidative stress, which corresponded to decreased necroptosis and apoptosis. CsA down-regulated mitochondrial cyclophilin D expression, but had little effects on RIPK1 expression and pRIPK1 activation. Additionally, we found that Nec-1 largely blocked apoptosis; whereas, the apoptosis inhibitor Z-VAD-FMK increased RIPK1 expression and pRIPK1 activation, and coordinated regulation of necroptosis and apoptosis enabled NP cells survival more efficiently. In contrast to Nec-1, SiRIPK1 exacerbated mitochondrial dysfunction and oxidative stress. In summary, RIPK1-mediated mitochondrial dysfunction and oxidative stress play a crucial role in NP cells necroptosis and apoptosis during compression injury. The synergistic regulation of necroptosis and apoptosis may exert more beneficial effects on NP cells survival, and ultimately delaying or even retarding intervertebral disc degeneration.     

Quantifying HDL proteins by mass spectrometry: how many proteins are there and what are their functions?

Introduction: Many lines of evidence indicate that low levels of HDL cholesterol increase the risk of cardiovascular disease (CVD). However, recent clinical studies of statin-treated subjects with established atherosclerosis cast doubt on the hypothesis that elevating HDL cholesterol levels reduces CVD risk.

Areas covered: It is critical to identify new HDL metrics that capture HDL’s proposed cardioprotective effects. One promising approach is quantitative MS/MS-based HDL proteomics. This article focuses on recent studies of the feasibility and challenges of using this strategy in translational studies. It also discusses how lipid-lowering therapy and renal disease alter HDL’s functions and proteome, and how HDL might serve as a platform for binding proteins with specific functional properties.

Expert commentary: It is clear that HDL has a diverse protein cargo and that its functions extend well beyond its classic role in lipid transport and reverse cholesterol transport. MS/MS analysis has demonstrated that HDL might contain >80 different proteins. Key challenges are demonstrating that these proteins truly associate with HDL, are functionally important, and that MS-based HDL proteomics can reproducibly detect biomarkers in translational studies of disease risk.     

Warming Induces Significant Reprogramming of Beige,but Not Brown,Adipocyte Cellular Identity

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Sense-antisense gene overlap is probably a cause for retaining the few introns in <Emphasis Type="Italic">Giardia</Emphasis> genome and the implications

Background

It is widely accepted that the last eukaryotic common ancestor and early eukaryotes were intron-rich and intron loss dominated subsequent evolution, thus the presence of only very few introns in some modern eukaryotes must be the consequence of massive loss. But it is striking that few eukaryotes were found to have completely lost introns. Despite extensive research, the causes of massive intron losses remain elusive. Actually the reverse question -- how the few introns can be retained under the evolutionary selection pressure of intron loss -- is equally significant but was rarely studied, except that it was conjectured that the essential functions of some introns prevent their loss. The situation that extremely few (eight) spliceosome-mediated cis-spliced introns present in the relatively simple genome of Giardia lamblia provides an excellent opportunity to explore this question.

Results

Our investigation found three types of distribution patterns of the few introns in the intron-containing genes: ancient intron in ancient gene, later-evolved intron in ancient gene, and later-evolved intron in later-evolved gene, which can reflect to some extent the dynamic evolution of introns in Giardia. Without finding any special features or functional importance of these introns responsible for their retention, we noticed and experimentally verified that some intron-containing genes form sense-antisense gene pairs with transcribable genes on their complementary strands, and that the introns just reside in the overlapping regions.

Conclusions

In Giardia’s evolution, despite constant evolutionary selection pressure of intron loss, intron gain can still occur in both ancient and later-evolved genes, but only a few introns are retained; at least the evolutionary retention of some of the introns might not be due to the functional constraint of the introns themselves but the causes outside of introns, such as the constraints imposed by other genomic functional elements overlapping with the introns. These findings can not only provide some clues to find new genomic functional elements -- in the areas overlapping with introns, but suggest that “functional constraint” of introns may not be necessarily directly associated with intron loss and gain, and that the real functions are probably still outside of our current knowledge.

Reviewers

This article was reviewed by Mikhail Gelfand, Michael Gray, and Igor Rogozin.

     

Artesunate inhibits RANKL‐induced osteoclastogenesis and bone resorption in vitro and prevents LPS‐induced bone loss in vivo

Osteoclasts are multinuclear giant cells responsible for bone resorption in lytic bone diseases such as osteoporosis, arthritis, periodontitis, and bone tumors. Due to the severe side‐effects caused by the currently available drugs, a continuous search for novel bone‐protective therapies is essential. Artesunate (Art), the water‐soluble derivative of artemisinin has been investigated owing to its anti‐malarial properties. However, its effects in osteoclastogenesis have not yet been reported. In this study, Art was shown to inhibit the nuclear factor‐κB ligand (RANKL)‐induced osteoclastogenesis, the mRNA expression of osteoclastic‐specific genes, and resorption pit formation in a dose‐dependent manner in primary bone marrow‐derived macrophages cells (BMMs). Furthermore, Art markedly blocked the RANKL‐induced osteoclastogenesis by attenuating the degradation of IκB and phosphorylation of NF‐κB p65. Consistent with the in vitro results, Art inhibited lipopolysaccharide (LPS)‐induced bone resorption by suppressing the osteoclastogenesis. Together our data demonstrated that Art inhibits RANKL‐induced osteoclastogenesis by suppressing the NF‐κB signaling pathway and that it is a promising agent for the treatment of osteolytic diseases.     

鳞翅目昆虫病原微孢子虫研究进展

微孢子虫广泛存在于鳞翅目昆虫中,是一类重要的病原微生物。微孢子虫病一方面影响野外昆虫种群的自然平衡,另一方面对家蚕、柞蚕等经济和资源昆虫造成了严重的危害。微孢子虫分子生物学研究基础相对薄弱,再加上微孢子虫表面坚厚的孢壁,无疑增加了研究难度。随着核酸、蛋白质等生物大分子分离制备方法和高通量测序技术的不断更新发展,基于各种组学(Omics)研究微孢子虫的工作方兴未艾,并且有了一些重要的发现。本文综述了微孢子虫与鳞翅目昆虫寄主的相互作用及寄生于鳞翅目昆虫的病原微孢子虫基因组、转录组和蛋白质组进展情况,以期为微孢子虫的深入研究提供参考。这些昆虫微生物研究将为鳞翅目害虫生物防治提供新的思路,并对家蚕等经济昆虫微粒子病的诊断、防控及治疗产生积极影响。