Structural variation in complex genome: detection,integration and function

<正>Structural variations (SVs) are mutations with large-scale changes (generally50 bp) in the genome. SVs are major sources of the genetic diversity of organisms and thus are of high relevance to phenotype variations, gene dosage and evolutionary genetics. Except detecting SVs through comparative genetic analyses, dozens of software had been developed based on the alignment of short-reads to a single linear genome in the past decades (Guan and Sung, 2016).     

Calyculin and okadaic acid promote perilipin phosphorylation and increase lipolysis in primary rat adipocytes

Lipolysis is primarily regulated by protein kinase A (PKA), which phosphorylates perilipin and hormone-sensitive lipase (HSL), and causes translocation of HSL from cytosol to lipid droplets in adipocytes. Perilipin coats lipid droplet surface and assumes to prevent lipase access to triacylglycerols, thus inhibiting basal lipolysis; phosphorylated perilipin facilitates lipolysis on PKA activation. Here, we induced lipolysis in primary rat adipocytes by inhibiting protein serine/threonine phosphatase with specific inhibitors, okadaic acid and calyculin. The incubation with calyculin promotes incorporation of 32Pi into perilipins, thus, confirming that perilipin is hyperphosphorylated. The lipolysis response to calyculin is gradually accompanied by increased accumulation of phosphorylated perilipin A in a concentration- and time-responsive manner. When perilipin phosphorylation is abrogated by the addition of N-ethylmaleimide, lipolysis ceases. Different from a considerable translocation of HSL upon PKA activation with isoproterenol, calyculin does not alter HSL redistribution in primary or differentiated adipocytes, as confirmed by both immunostaining and immunoblotting. Thus, we suggest that inhibition of the phosphatase by calyculin activates lipolysis via promoting perilipin phosphorylation rather than eliciting HSL translocation in adipocytes. Further, we show that when the endogenous phosphatase is inhibited by calyculin, simultaneous PKA activation with isoproterenol converts most of the perilipin to the hyperphosphorylated species, and induces enhanced lipolysis. Apparently, as PKA phosphorylates perilipin and stimulates lipolysis, the phosphatase acts to dephosphorylate perilipin and attenuate lipolysis. This suggests a two-step strategy governed by a kinase and a phosphatase to modulate the steady state of perilipin phosphorylation and hence the lipolysis response to hormonal stimulation.     

Dual roles of Atg8-PE deconjugation by Atg4 in autophagy

Modification of target molecules by ubiquitin or ubiquitin-like (Ubl) proteins is generally reversible. Little is known, however, about the physiological function of the reverse reaction, deconjugation. Atg8 is a unique Ubl protein whose conjugation target is the lipid phosphatidylethanolamine (PE). Atg8 functions in the formation of double-membrane autophagosomes, a central step in the well-conserved intracellular degradation pathway of macroautophagy (hereafter autophagy). Here we show that the deconjugation of Atg8-PE by the cysteine protease Atg4 plays dual roles in the formation of autophagosomes. During the early stage of autophagosome formation, deconjugation releases Atg8 from non-autophagosomal membranes to maintain a proper supply of Atg8. At a later stage, the release of Atg8 from intermediate autophagosomal membranes facilitates the maturation of these structures into fusion-capable autophagosomes. These results provide new insights into the functions of Atg8-PE and its deconjugation.     

Heat shock protein 70 is translocated to lipid droplets in rat adipocytes upon heat stimulation

In mammalian cells, lipid storage droplets contain a triacylglycerol and cholesterol ester core surrounded by a phospholipid monolayer into which a number of proteins are imbedded. These proteins are thought to be involved in modulating the formation and metabolic functions of the lipid droplet. In this study, we show that heat stress upregulates several heat shock proteins (Hsps), including Hsp27, Hsp60, Hsp70, Hsp90, and Grp78, in primary and differentiated adipocytes. Immunostaining and immunoblotting data indicate that among the Hsps examined, only Hsp70 is induced to redirect to the lipid droplet surface in heat-stressed adipocytes. The thermal induction of Hsp70 translocation to lipid droplet does not typically happen in a temperature- or time-dependent manner and occurs abruptly at 30-40 min and rapidly achieves a steady state within 60 min after 40 degrees C stress of adipocytes. Though Hsp70 is co-localized with perilipin on the lipid droplets in stressed adipocytes, immunoprecipitation experiments suggest that Hsp70 does not directly interact with perilipin. Alkaline treatments indicate that Hsp70 associates with the droplet surface through non-hydrophobic interactions. We speculate that Hsp70 might noncovalently associate with monolayer microdomains of the lipid droplet in a manner similar to its interaction with lipid bilayer moieties composed of specific fatty acids. As an acute and specific cellular response to the heat stimulation, accumulation of Hsp70 on adipocytes lipid droplets might be involved in stabilizing the droplet monolayer, transferring nascent proteins to the lipid droplets, or chaperoning denatured proteins on the droplet for subsequent refolding.     

The effect of cataract surgery on salivary melatonin and sleep quality in aging people

Blue light plays an important role in circadian photoentrainment by stimulating the melanopsin-expressing photosensitive retinal ganglion cells. Age-related cataract causes progressive loss of blue light transmission, which may lead to changes in circadian rhythm and sleep quality. In theory, increased light transmission by cataract surgery may improve circadian misalignment and sleep quality, while the effect of cataract surgery on circadian rhythm is not well understood. In this study, we assessed 30 binocular age-related nuclear cataract patients (aged 72.5 ± 7.2, 16 female) who were eligible for cataract surgery. All the patients underwent phacoemulsification cataract extraction and neutral ultraviolet-only blocking intraocular lens (IOLs) implantation. Visual functions including best-corrected visual acuity (BCVA), color perception and dark adaptation were assessed. Salivary samples were collected at 1-hour interval from 19:00 to 23:00 48 hours before and after surgery. Salivary melatonin concentration was measured and dim light melatonin onset (DLMO) was calculated subsequently. Sleep quality and daytime alertness were assessed before and a month after surgery using Pittsburgh Sleep Quality Index (PSQI) and Epworth Sleepiness Scale (ESS). All the operated eyes demonstrated significant improvements in BCVA, color perception and dark adaptation after cataract surgery. Salivary melatonin concentration at 23:00 was significantly increased after surgery (P < 0.001). However, the average DLMO did not change significantly after surgery. In addition, PSQI and ESS scores were significantly decreased a month after surgery (P = 0.027, P < 0.001, respectively). In conclusion, cataract surgery promotes blue-light transmission; consequently, it may lead to the increase in nighttime melatonin concentration and improvement in sleep quality as well as daytime alertness.     

‘云香’水仙ACC合成酶基因NtACS1的克隆及遗传转化

为探究多花水仙ACS基因的序列特征及功能,以‘云香’水仙盛花期花瓣为试验材料,根据‘云香’水仙花朵转录组数据信息,通过RT-PCR方法克隆出1个ACS基因,命名为NtACS1(GenBank KX082936);NtACS1开放阅读框(ORF)长度为552bp,编码183个氨基酸。编码蛋白质分子量约为20.6KDa,理论等电点为6.30,不稳定系数为65.49,属于不稳定的疏水性蛋白。通过qRT-PCR对‘云香’水仙不同时期花瓣和副冠中的NtACS1基因进行了表达分析,得到与‘云香’水仙花朵转录组数据中相同的结果:NtACS1基因在‘云香’水仙花瓣和副冠中的表达都是随着花衰老过程呈现逐渐下降的趋势,且NtACS1基因在花瓣和副冠中的表达峰值都在花苞期,表明NtACS1基因编码的蛋白是在乙烯生物合成途径的系统1发挥催化作用的ACC合成酶。成功构建了NtACS1基因的正义植物表达载体,并通过农杆菌介导法获得8株转基因烟草,PCR和RT-PCR检测显示其中有6株为阳性植株,初步证实NtACS1基因已导入烟草基因组中且在烟草中已表达。该研究结果为进一步分析NtACS1基因的功能和后续转化水仙延长其花期研究奠定了基础。     

A selective protein sensor for heparin detection

No clinical assays for the direct detection of heparin in blood exist. To create a heparin sensor, the hyaluronan (HA)-binding domain (HABD) of a protein that binds heparin and HA was engineered. GST fusion proteins containing one to three HABD modules were cloned, expressed, and purified. The affinities of each construct for heparin and for HA were determined by a competitive enzyme-linked immunosorbent assay using immobilized HA or heparin. Each of the constructs showed modest affinity for immobilized HA. However, heparin was 100-fold more potent than HA as a competing ligand. With immobilized heparin, affinity increased as the HABD copy number increased. The three-copy construct, GST-HB3, detected unfractionated free heparin (UFH) as low as 39ng/ml (equivalent to approximately 0.1U/ml) with a signal-to-noise ratio of 5.6. GST-HB3 also showed 100-fold selectivity for heparin in preference to other glycosaminoglycans. The plot of logKd vs log [Na+] showed 2.5 ionic interactions per heparin-HB3 interaction. GST-HB3 showed a linear detection of both UFH (15kDa) and low-molecular-weight heparin (LMWH; 6kDa) added to human plasma. For UFH, the range examined was 78 to over 2000ng/ml (equivalent to 0.2 to 5.0U/ml). For LMWH, the useful range was 312 to over 2000ng/ml. The coefficient of variance for the assay was < 9% for six serial heparin dilutions and <12% for three plasma samples. In clinical use, GST-HB3 could accurately measure therapeutic heparin levels in plasma (0.2 to 2U/ml).     

Spacrcan binding to hyaluronan and other glycosaminoglycans. Molecular and biochemical studies

Photoreceptors project from the outer retinal surface into a specialized glycocalyx, the interphotoreceptor matrix (IPM), which contains hyaluronan (HA) and two novel proteoglycans, Spacr and Spacrcan. This matrix must be stable enough to function in the attachment of the retina to the outer eye wall yet porous enough to allow movement of metabolites between these tissues. How this matrix is organized is not known. HA is a potential candidate in IPM organization since biochemical studies show that these proteoglycans bind HA. RHAMM (receptor for HA-mediated motility)-type HA binding motifs (HABMs) are present in their deduced amino acid sequence and may be the sites of this HA interaction. To test this hypothesis, we subcloned three fragments of mouse Spacrcan that contain the putative HABMs. We found that each recombinant fragment binds HA. Binding decreased when residues in the HABMs were mutated. This provides direct evidence that the RHAMM-type HABMs in Spacrcan are involved in hyaluronan binding. Since chondroitin sulfate and heparan sulfate proteoglycans are important for retinal development and function, we also evaluated the binding of these recombinant proteins to heparin and chondroitin sulfates, the glycosaminoglycan side chain of these proteoglycans. We found that each recombinant protein bound to both heparin and chondroitin sulfates. Binding to chondroitin sulfates involved these HABMs, because mutagenesis reduced binding. Binding to heparin was probably not mediated through these HABMs since heparin binding persisted following their mutagenesis. These studies provide the first evidence defining the sites of protein-carbohydrate interaction of molecules present in the IPM.     

HER2-specific chimeric antigen receptor-T cells for targeted therapy of metastatic colorectal cancer

Chimeric antigen receptor (CAR) - T cell therapy is a new class of cellular immunotherapies, which has made great achievements in the treatment of malignant tumors. Despite improvements in colorectal cancer (CRC) therapy, treatment of many patients fails because of metastasis and recurrence. The human epidermal growth factor receptor 2 (HER2) is a substantiated target for CAR-T therapy, and has been reported recently to be over-expressed in CRC, which may provide a potential therapeutic target for CRC treatment. Herein, HER2 was a promising target of metastatic colorectal cancer (mCRC) in CAR-T therapy as assessed by flow cytometry and tissue microarray (TMA) with 9-year survival follow-up data. Furthermore, HER2-specific CAR-T cells exhibited strong cytotoxicity and cytokine-secreting ability against CRC cells in vitro. Moreover, through the tumor-bearing model of the NOD-Prkdc^em26cd52Il2rg^em26Cd22/Nju (NCG) mice, HER2 CAR-T cells showed signs of effectively preventing CRC progression in three different xenograft models. Notably, HER2 CAR-T cells displayed greater aggressiveness in HER2⁺ CRC in the patient-derived tumor xenograft (PDX) models and had potent immunotherapeutic capacity for mCRC in the metastatic xenograft mouse models. In conclusion, our studies provide scientific evidence that HER2 CAR-T cells represent an emerging immunotherapy for the treatment of mCRC.Subject terms: Cancer models, Colorectal cancer, Tumour biomarkers, Cancer therapy, Metastasis