抗缺氧剂治疗缺氧和缺血性疾病的研究

本文综述了抗缺氧剂的研究进展概况，重点评述了咪基硫脲、γ－羟基丁酸钠、吡烷酮醋胺、ａｍｔｉｓｏｌ、ｔｒｉｍｉｎ、ｅｔｏｍｅｒｓｏｌ和全氟碳乳剂的抗缺氧作用机理及其临床应用适应证等。

缺氧诱导因子脯氨酰羟化酶抑制剂在慢性肾脏病血管钙化中的研究进展

缺氧诱导因子脯氨酰羟化酶抑制剂(HIF-PHI)是治疗慢性肾脏病(CKD)肾性贫血的新型药物。HIF-PHI作为缺氧诱导因子(HIF)稳定剂,可提高HIF表达水平,HIF的持续升高促进血管平滑肌细胞的成骨转分化和钙化,加大血管钙化的风险,长期使用HIF-PHI可能存在血管钙化的潜在风险。血管钙化是CKD患者心血管事件发病率和病死率增加的主要危险因素,因此应充分了解HIF-PHI潜在的危害性并加以重视。该文就HIF-PHI在CKD血管钙化中的研究进展进行综述。

缺氧条件下缺氧诱导因子-1α抑制剂YC-1对人卵巢癌Skov3干细胞耐药的逆转作用

目的:探讨缺氧诱导因子-1α抑制剂YC-1在缺氧条件下逆转人卵巢癌干细胞Skov3耐药的机制。方法:选用人卵巢癌Skov3细胞通过无血清悬浮培养法富集肿瘤干细胞。分别于常氧及缺氧条件下检测不同浓度顺铂干预Skov3贴壁细胞及干细胞后测定顺铂对于两种细胞的抑制作用,及缺氧后干性指标、耐药指标ABCG2及HIF-1α的表达。当给予HIF-1α抑制剂YC-1后,测定顺铂对Skov3干细胞的抑制作用。并且检测干细胞干性指标、ABCG2及HIF-1α的mRNA表达。结果:悬浮培养的Skov3干细胞的干性指标CD44、NANOG、OCT-4及耐药指标ABCG2较贴壁细胞升高,且缺氧培养后,随着HIF-1α表达的升高,CD44、NANOG、OCT-4及ABCG2的表达也明显升高,P<0.05。干细胞的耐药性高于贴壁细胞,且缺氧培养耐药性增加。当给予YC-1后,干细胞耐药性下调,HIF-1α出现抑制,同时其干性指标CD44、NANOG、OCT-4、耐药ABCG2明显下调,P<0.05。结论:YC-1在缺氧条件下通过抑制HIF-1α下调ABCG2的表达逆转Skov3干细胞耐药。

缺氧诱导因子抑制剂YC-1对缺氧肝癌细胞生物钟基因和蛋白表达及增殖的影响

目的观察缺氧诱导因子(HIF)抑制剂YC-1对缺氧肝癌细胞生物钟基因、生物钟蛋白表达及细胞增殖的影响。方法将肝癌细胞Huh7置于乏氧培养箱中培养,分为实验组和对照组,实验组加入50μmol/L的YC-1,对照组加入DMSO,培养48 h后分别提取mRNA和蛋白。采用real-time PCR法检测两组细胞中的Per1、Per2、Per3、Cry1、Cry2、Clock、Bmal1 mRNA,采用Western blotting法检测Per1、Per2、Per3、Cry1、Cry2、Clock、Bmal1蛋白。取对数生长期的Huh7细胞,分为实验组和对照组,实验组加入50μmol/L的YC-1,对照组加入等量生理盐水,在乏氧条件下培养细胞,采用克隆形成实验观察两组克隆形成情况,计算克隆形成率。结果实验组细胞中Clock、Per1、Per3、Cry1 mRNA及蛋白相对表达量低于对照组,Bmal1、Per2、Cry2 mRNA及蛋白相对表达量高于对照组(P均<0.05)。实验组克隆形成个数为83个、克隆形成率为27.67%,对照组分别为191个、63.67%,实验组克隆形成个数及克隆形成率均低于对照组(P均<0.05)。结论 YC-1作用后,缺氧环境下的肝癌细胞中Clock、Per1、Per3、Cry1基因及蛋白表达下调,Bmal1、Per2、Cry2基因及蛋白表达上调,细胞增殖和克隆形成能力减弱。

缺氧诱导因子抑制剂对去卵巢大鼠骨质疏松症治疗效果的研究

目的研究缺氧诱导因子抑制剂对卵巢切除(ovariectomized,OVX)雌性Sprague-Dawley大鼠的治疗效果,比较缺氧诱导因子抑制剂对骨密度的影响。方法在大鼠卵巢切除12周后,使用缺氧诱导因子抑制剂进行治疗。治疗8周后,在实验结束时将大鼠进行安乐死处理,获取大鼠血清、股骨和胫骨。通过生物力学测试,Micro-CT扫描和血清生化分析进行评估。结果与未给药的OVX大鼠相比,缺氧诱导因子抑制剂的全身给药显著降低了骨代谢指标Ⅰ型前胶原氨基末端前肽(type I collagen N terminal peptide,PINP)和Ⅰ型胶原羧基端肽(type I collagen carboxy-terminal peptide,CTX-I),增加了大鼠胫骨骨密度(bone mineral density, BMD),增强了股骨极限载荷、能量和刚度,差异比较有统计学意义(P<0.05)。结论缺氧诱导因子抑制剂能有效改善OVX诱导的骨质疏松症。

缺氧诱导因子-1与恶性肿瘤关系的研究进展

低氧是恶性肿瘤微环境的特征之一,缺氧诱导因子-1(HIF-1)是细胞适应低氧环境的重要调节因子。HIF-1是低氧环境下的氧调节型α亚基与组成型β亚基形成的稳定的异二聚体,其促进肿瘤血管生成、上调并激活基质金属蛋白酶及赖氨酸氧化酶等细胞因子及信号通路、诱导特异性微RNA生成,参与多种恶性肿瘤细胞的增殖、侵袭、转移等相关生物学行为。通过不同的方式抑制HIF-1α的活性,改变其结构稳定性,对于恶性肿瘤的治疗具有重要意义。但HIF-1α能否成为恶性肿瘤治疗的靶点及其预后判断的指标,有待于进一步的研究探索。

HIF-1α抑制剂YC-1对人骨肉瘤细胞Saos2和U2-OS增殖和凋亡的影响

目的:应用缺氧诱导因子-1α(hypoxia inducible factor-1α,HIF-1α)抑制剂YC-1处理人骨肉瘤细胞Saos2和U2-OS,观察不同药物浓度对人骨肉瘤细胞系Saos2和U2-OS细胞增殖、细胞周期以及凋亡的影响及其机制。方法:人骨肉瘤细胞系Saos2和U2-OS分对照组和实验组。对照组细胞1%氧气浓度低氧培养,实验组细胞施加HIF-1α抑制剂YC-1干预,设浓度梯度。CCK-8法检测不同药物浓度对Saos2和U2-OS细胞活力及增殖的影响;流式细胞术检测YC-1对Saos2和U2-OS细胞周期和凋亡的影响;Western blot对FXR1、G3BP1、APAF1、Cleaved Caspase-3蛋白的表达进行相对定量分析。结果:CCK-8检测结果显示,YC-1对人骨肉瘤Saos2和U2-OS细胞有显著的增殖抑制作用,且呈明显的剂量依赖效应。不同浓度的YC-1处理细胞后,均可使各处理组G1期细胞增多,S期细胞减少,且呈剂量依赖效应(P<0.05)。不同浓度的YC-1处理细胞后,与对照组相比,各实验组FXR1、G3BP1、APAF1蛋白表达显著下降(P<0.05),而Cleaved Caspase-3蛋白表达显著增高(P<0.05)。结论:YC-1可以将人骨肉瘤细胞株Saos2和U2-OS细胞阻滞于G1期,影响细胞周期进程,抑制细胞增殖,促进细胞凋亡。HIF-1α对人骨肉瘤细胞增殖与凋亡的影响可能是通过上调FXR1、G3BP1、APAF1的表达而实现,而YC-1抑制了HIF-1α的表达从而使Cleaved Caspase-3的表达增高诱导细胞凋亡。HIF-1α及FXR1、G3BP1、APAF1、Cleaved Caspase-3有望成为骨肉瘤治疗的新靶标。

铁调素及相关干预药物的研究进展

铁转运障碍是慢性肾脏病(CKD)患者难治性贫血的常见原因。铁调素是机体维持铁稳态的关键激素,可负向调节铁代谢,该过程由多种信号通路调节,包括骨形志发生蛋白/Smad信号通路、Janus激酶/信号转导与转录激活子3通路、炎症、促红细胞生成、缺氧等。铁调素已成为临床治疗铁代谢失衡的主要靶点。近年来,国内外研发了多种铁调素调节相关药物,其中以罗沙司他为代表的缺氧诱导因子脯氨酸羟化酶抑制剂类药物被认为可有效减少铁调素表达,提高血清铁水平,进而促进红细胞生成,治疗CKD患者的贫血。

真皮下血管网皮片移植的系列研究

用家猪为实验动物,研究了真皮下血管网皮管、皮瓣、皮片的血供方式及成活规律。皮管是研究真皮下血管网皮瓣血供的良好模型。用成活长度、ECT 测定核素分布范围等方法证明超长真皮下血管网皮瓣的远侧部份得不到来自蒂部的血供,这种皮瓣实际上是真皮下血管网皮瓣与皮片的复合物。超长超宽真皮下血管网皮瓣(树叶状)实际上大部分不是皮瓣而是皮片。实验及临床研究结果表明:富含真皮下血管网的供皮区;保持真皮下血管网完整无损及皮下脂肪厚度不超过3mm;受区创面状况良好;在30mmHg(4kPa)左右的压力下持续加压包扎17天是保证真皮下血管网皮片成活的四个要素。报告了包括面积在600～1000cm^2的大张真皮下血管网皮片在内的88例(102个皮片)临床成功经验。用局部加热,术后肌注抗缺氧药物和双氧水皮片下滴注的方法分别使带有4mm 厚脂肪的猪真皮下血管网皮片的成活率达到93.5±5.8%,94.0±8.2%,84.0±4.3%。

提高带有较厚皮下脂肪的真皮下血管网皮片成活率的实验研究

为提高带有较厚脂肪真皮下血管网皮片的成活率，用２４只家猪躯干部真皮下血管网皮片移植为实验模型统计局部加热、降温、抗缺氧剂和双氧水使用后皮片的成活率，结果发现局部加热、抗缺氧剂和双氧水可使带有４ｍｍ厚脂肪的真皮下血管网皮片的成活率达到（９３．５±５．８）％，（９１．５±４．９）％和（８４．０±４．３）％；与对照组（４６．４±６．４）％有显著性差别（Ｐ＜０．０１）。

带脂肪皮肤移植的实验研究与临床应用

为提高带脂肪皮肤移植的成活率，进行了实验和临床研究。以小猪躯干部带脂肪皮肤移植为实验模型，计算经局部加温、降温，局部及全身使用抗缺氧剂（ＱＳＤ及ＱＨＤ）等处理后皮片的成活率。观察了临床应用带脂肪皮肤移植１５９例的治疗效果。结果表明经局部加温、局部及全身使用抗缺氧剂ＱＳＤ及ＱＨＤ后，皮片的成活率分别为９３．５％±５．８％、９１．５％±４．９％和８４．０％±４．３％，三者均明显高于未处理组。临床应用１５９例带脂肪皮肤移植的成活率达９９．２％，治疗效果满意。

慢性牙周炎低氧环境对微血管及骨代谢与骨修复的作用

背景:缺氧和炎症通常在许多疾病中同时发生,牙周炎症所处的微环境属于低氧状态,缺氧与HIF通路在牙周组织及牙槽骨代谢过程中起到了关键作用,缺氧微环境所影响到的一系列的重要表型与牙周组织中骨代谢的过程息息相关。目的:探究关于低氧在牙周炎症反应及骨修复和再生中的作用以及所涉及的细胞和分子机制,并简要讨论了低氧模拟剂在牙周骨再生中的应用场景。方法:检索PubMed、中国知网和万方数据库,中文关键词为“低氧、低氧诱导因子1α、牙周炎、骨生成”,英文检索词为“hypoxia;hypoxia inducible factor-1α;periodontitis;osteogenesis”,检索文献年限范围为1990年1月至2022年10月。根据文章内容纳入与文章主题相近或一致的文献,最终共纳入49篇文章进行综述。结果与结论:(1)低氧可引起氧化应激,并使牙周炎症进一步加重;(2)低氧在牙周炎中促进血管生成;(3)低氧可促进牙周膜干细胞的增殖与成骨分化,并同时促进成骨与破骨;(4)通过丰富低氧及HIF通路对牙周组织和骨再生的认识,有助于设计用于加速骨修复和再生的新疗法。

缺氧模拟剂在骨组织工程中的应用现状

目的总结缺氧模拟剂在骨组织工程中的应用现状。方法广泛查阅国内外骨组织工程中缺氧模拟剂研究相关文献,对其应用现状进行总结分析。结果缺氧模拟剂在上调缺氧诱导因子1α(hypoxia inducible factor 1α,HIF-1α)水平方面具有与缺氧相同的效果,在骨组织工程研究中,将其与支架材料结合后可以促进缺损部位的早期血管化和骨形成,为利用组织工程骨修复骨缺损提供了新思路。目前研究常用的缺氧模拟剂包括铁螯合剂、氧化戊二酸竞争类似物、新型脯氨酸羟化酶抑制剂等。结论缺氧模拟剂在骨组织工程中具有广泛应用前景,但用于骨组织工程时间较短,需要重点关注其可能产生的副作用。下一步研究应朝着使缺氧模拟剂靶向特异性及安全性更高的方向发展,并进一步探索其促进骨再生的确切机制。

Defective high-entropy rocksalt oxide with enhanced metal‒oxygen covalency for electrocatalytic oxygen evolution

High‐entropy materials are emerging electrocatalysts by integrating five or more elements into one single crystallographic phase to optimize the electronic structures and geometric environments.Here,a rocksalt‐type high‐entropy oxide Mg_(0.2)Co_(0.2)Ni_(0.2)Cu_(0.2)Zn_(0.2)O(HEO)is developed as an electrocatalyst towards the oxygen evolution reaction(OER).The obtained HEO features abundant cation and oxygen vacancies originating from the lattice mismatch of neighboring metal ions,together with enlarged Co/Ni‒O covalency due to the introduction of less electronegative Mg and Zn.As a result,the HEO exhibits superior intrinsic OER activities,delivering a turnover frequency(TOF)15 and 84 folds that of CoO and NiO at 1.65 V,respectively.This study provides a mechanistic understanding of the enhanced OER on HEO and demonstrates the potential of high‐entropy strategy in developing efficient oxygen electrocatalysts by elaborately incorporating low‐cost elements with lower electronegativity.

Synergic effects of Cu_xO electron transfer co-catalyst and valence band edge control over TiO_2 for efficient visible-light photocatalysis

Bandgap engineering by doping and co‐catalyst loading are two primary approaches to designing efficient photocatalysts by promoting visible‐light absorption and charge separation,respectively.Shifting of the TiO2conduction band edge is frequently applied to increase visible‐light absorption but also lowers the reductive properties of photo‐excited electrons.Herein,we report a visible‐light‐driven photocatalyst based on valance band edge control induced by oxygen excess defects and modification with a CuxO electron transfer co‐catalyst.The CuxO grafted oxygen‐rich TiO2microspheres were prepared by ultrasonic spray pyrolysis of the peroxotitanate precursor followed by a wet chemical impregnated treatment.We found that oxygen excess defects in TiO2shifted the valence band maximum upward and improved the visible‐light absorption.The CuxO grafted onto the surface acted as a co‐catalyst that efficiently reduced oxygen molecules to active intermediates(i.e.,O2??radial and H2O2),thus consuming the photo‐generated electrons.Consequently,the CuxO grafted oxygen‐rich TiO2microspheres achieved a photocatalytic activity respectively8.6,13.0and11.0as times high as those of oxygen‐rich TiO2,normal TiO2and CuxO grafted TiO2,for degradation of gaseous acetaldehyde under visible‐light irradiation.Our results suggest that high visible‐light photocatalytic efficiency can be achieved by combining oxygen excess defects to improve visible‐light absorption together with a CuxO electron transfer co‐catalyst.These findings provide a new approach to developing efficient heterojunction photocatalysts.

The origin of the extraordinary stability of mercury catalysts on the carbon support: the synergy effects between oxygen groups and defects revealed from a combined experimental and DFT study

Thermal stability of HgCl2 has a pivotal importance for the hydrochlorination reaction as the loss of mercuric compounds is toxic and detrimental to environment.Here we report a low-mercury catalyst which has durability over 10000 h for acetylene hydrochlorination under the industrial condition.The stability of the catalyst is carefully analyzed from a combined experimental and density functional theory study.The analysis shows that the extraordinary stability of mercury catalyst is resulted from the synergy effects between surface oxygen groups and defective edge sites.The binding energy of HgCl2 is increased to be higher than 130 kJ/mol when adsorption is at the edge site with a nearby oxygen group.Therefore,the present study revealed that the thermal stability problem of mercury-based catalyst can be solved by simply adjusting the surface chemistry of activated carbon.Furthermore,the reported catalyst has already been successfully applied in the commercialized production of vinyl chloride.

罗沙司他与同类HIF-PHI及ESA在肾性贫血治疗中的分析比较

贫血是慢性肾脏病(CKD)常见并发症之一,同时也影响CKD进展,因此肾性贫血的治疗对于提高CKD患者的生活质量和生存率至关重要。罗沙司他作为我国首个上市的口服小分子缺氧诱导因子脯氨酰羟化酶抑制剂(HIF-PHI),临床应用时间相对较短,关于其安全性和有效性的评价还在不断完善。本文将通过分析比较罗沙司他与同类HIF-PHI及红细胞生成刺激剂(ESA)在肾性贫血中的治疗特点,推进罗沙司他的合理用药,为我国HIF-PHI的临床应用提供参考。

^(18)F-FETNIM PET/CT hypoxia imaging in non-small cell lung cancer:preliminary clinical observation

Objective:The aims of this study were to evaluate potential side effects of 18F-fluoroerythronitroimidazole (18F-FETNIM) as a new-type hypoxia-imaging agent and to investigate the feasibility of 18F-FETNIM PET imaging in advanced non-small cell lung cancer (NSCLC) patients and the correlations of hypoxia extent with tumor volume or pathological type. Methods: Twenty-six NSCLC patients were prospectively included in the study. PET/CT scans were performed 2 h after intravenous injection of 18F-FETNIM in all 26 patients. A pixel-by-pixel calculation of tumor to blood (T/B) activity ratio for all image planes was calculated. The number of pixels in the tumor volume with a T/B ratio≥ 1.5,indicating significant hypoxia,was determined and converted to mL units to measure the hypoxia volume (HV). Results: The images were clearly identified after 2 h post-injection of 18F-FETNIM. The tumors in 4 cases were not distinguished from background,while the remaining 22 displayed local 18F-FETNIM uptake in thoracic lesions moderately to markedly higher than background. There was no correlation between 18F-FETNIM uptake with pathological type. There were significant correlations of HV and also the T/B ratio with tumor volume. Conclusion:18F-FETNIM is a promising hypoxia-imaging agent which clinical use is safe and satisfactory. The preliminary study provides valuable methods and experience to its further research.

Inhibition Mechanism of Hydroxyproline-like Small Inhibitors to Disorder HIF-VHL Interaction by Molecular Dynamic Simulations and Binding Free Energy Calculations

Protein-protein interactions are vital for a wide range of biological processes.The interactions between the hypoxia-inducible factor and von Hippel Lindau(VHL)are attractive drug targets for ischemic heart disease.In order to disrupt this interaction,the strategy to target VHL binding site using a hydroxyproline-like(pro-like)small molecule has been reported.In this study,we focused on the inhibition mechanism between the pro-like inhibitors and the VHL protein,which were investigated via molecular dynamics simulations and binding free energy calculations.It was found that pro-like inhibitors showed a strong binding affinity toward VHL.Binding free energy calculations and free energy decompositions suggested that the modification of various regions of pro-like inhibitors may provide useful information for future drug design.

缺氧诱导因子脯氨酰羟化酶抑制剂治疗重度贫血伴红细胞生成刺激剂低反应性血液透析患者1例报告

肾性贫血是维持性血液透析(maintenance hemodialysis,MHD)患者常见的并发症之一,存在发生率高、达标率低等问题[1]。血红蛋白(hemoglobin,Hb)不达标会增加患者死亡风险。既往临床中纠正肾性贫血的常用药物为促红细胞生成素(erythropoietin,EPO)和铁剂,但部分患者存在EPO低反应性。罗沙司他作为治疗肾性贫血的新型药物,可通过模拟脯氨酰羟化酶(prolyl hydroxylase,PH)的底物酮戊二酸来竞争性抑制PH,模拟机体缺氧[2]。