Macrophage modulation with dipeptidyl peptidase-4 inhibitors:A new frontier for treating diabetic cardiomyopathy?

This editorial introduces the potential of targeting macrophage function for diabetic cardiomyopathy(DCM)treatment by dipeptidyl peptidase-4(DPP-4)inhibitors.Zhang et al studied teneligliptin,a DPP-4 inhibitor used for diabetes management,and its potential cardioprotective effects in a diabetic mouse model.They suggested teneligliptin administration may reverse established markers of DCM,including cardiac hypertrophy and compromised function.It also inhibited the NLRP3 inflammasome and reduced inflammatory cytokine production in diabetic mice.Macrophages play crucial roles in DCM pathogenesis.Chronic hyperglycemia disturbs the balance between pro-inflammatory(M1)and antiinflammatory(M2)macrophages,favoring a pro-inflammatory state contributing to heart damage.Here,we highlight the potential of DPP-4 inhibitors to modulate macrophage function and promote an anti-inflammatory environment.These compounds may achieve this by elevating glucagon-like peptide-1 levels and potentially inhibiting the NLRP3 inflammasome.Further studies on teneligliptin in combination with other therapies targeting different aspects of DCM could be suggested for developing more effective treatment strategies to improve cardiovascular health in diabetic patients.

Sodium-dependent glucose transporter 2 inhibitors effects on myocardial function in patients with type 2 diabetes and asymptomatic heart failure

BACKGROUND Sodium-dependent glucose transporter 2 inhibitors(SGLT2i)have shown efficacy in reducing heart failure(HF)burden in a very heterogeneous groups of patients,raising doubts about some contemporary assumptions of their mechanism of action.We previously published a prospective observational study that evaluated mechanisms of action of SGLT2i in patients with type 2 diabetes who were in HF stages A and B on dual hypoglycemic therapy.Two groups of patients were included in the study:the ones receiving SGLT2i as an add-on agent to metformin and the others on dipeptidyl peptidase-4 inhibitors as an add-on to metformin due to suboptimal glycemic control.AIM To evaluate the outcomes regarding natriuretic peptide,oxidative stress,inflammation,blood pressure,heart rate,cardiac function,and body weight.METHODS The study outcomes were examined by dividing each treatment arm into two subgroups according to baseline parameters of global longitudinal strain(GLS),N-terminal pro-brain natriuretic peptide,myeloperoxidase(MPO),high-sensitivity C-reactive protein(hsCRP),and systolic and diastolic blood pressure.To evaluate the possible predictors of observed changes in the SGLT2i arm during follow-up,a rise in stroke volume index,body mass index(BMI)decrease,and lack of heart rate increase,linear regression analysis was performed.RESULTS There was a greater reduction of MPO,hsCRP,GLS,and blood pressure in the groups with higher baseline values of mentioned parameters irrespective of the therapeutic arm after 6 months of follow-up.Significant independent predictors of heart rate decrease were a reduction in early mitral inflow velocity to early diastolic mitral annular velocity at the interventricular septal annulus ratio and BMI,while the predictor of stroke volume index increase was SGLT2i therapy itself.CONCLUSION SGLT2i affect body composition,reduce cardiac load,improve diastolic/systolic function,and attenuate the sympathetic response.Glycemic control contributes to the improvement of heart function,blood pressure control,oxidative stress,and reduction in inflammation.

DPP-4 inhibitors and GLP-1RAs:cardiovascular safety and benefits

Glucagon-like peptide-1 receptor agonists(GLP-1RAs)and dipeptidyl peptidase-4 inhibitors are commonly used treatments for patients with type 2 diabetes mellitus(T2DM).Both anti-diabetic treatments function by playing key modulatory roles in the incretin system.Though these drugs have been deemed effective in treating T2DM,the Food and Drug Administration(FDA)and some members of the scientific community have questioned the safety of these therapeutics relative to important cardiovascular endpoints.As a result,since 2008,the FDA has required all new drugs for glycemic control in T2DM patients to demonstrate cardiovascular safety.The present review article strives to assess the safety and benefits of incretin-based therapy,a new class of antidiabetic drug,on the health of patient cardiovascular systems.In the process,this review will also provide a physiological overview of the incretin system and how key components function in T2DM.

基于FAERS数据库的周期蛋白依赖性激酶4/6抑制剂血液毒性真实世界研究

目的 基于美国美国食品药品管理局(FDA)的不良事件报告系统(FAERS)分析3种周期蛋白依赖性激酶4/6(CDK4/6)抑制剂上市后的不良事件(AEs)信号,为临床用药安全提供参考。方法 提取FAERS数据库2015年第一季度至2022年第一季度共29个季度AEs,利用报告比值比法(ROR)和比例报告比值法(PRR)对CDK4/6抑制剂AEs进行数据挖掘。结果 CDK4/6抑制剂相关性血液毒性报告共有7 872份,各抑制剂血液毒性AEs占总AEs比例依次为哌柏西利(80.31%)>瑞博西利(15.36%)>阿贝西利(4.33%)。血液毒性常见中性粒细胞减少和贫血。哌柏西利(2 982/6 322,47.17%)和瑞博西利(613/1 209,50.70%)致中性粒细胞减少的报告占比较阿贝西利(117/341,34.31%)更高,血液毒性主要发生在药物开始使用后60 d内(1 630,61.86%),哌柏西利中位时间最长,且用药90 d后仍有32.9%的患者存在血液毒性,不同CDK4/6抑制剂血液毒性临床表现及发生强度存在差异。结论 哌柏西利、阿贝西利、瑞博西利均会导致明显的血液毒性,其中阿贝西利致血液毒性报告最少,但要警惕阿贝西利致贫血后导致死亡的风险。用药后的2个月内密切监测全血细胞计数,关注中性粒细胞、血红蛋白等水平,警惕CDK4/6抑制剂相关血液AEs的发生。

5个原研二肽基肽酶4抑制剂的综合评价

目的:对5个原研二肽基肽酶4(DPP-4)抑制剂进行可量化的客观评价,为医疗机构遴选药品提供量化参考,为临床药品选择提供依据。方法:应用《中国医疗机构药品评价与遴选快速指南(第二版)》(以下简称“指南”)的评价体系,对5个原研DPP-4抑制剂的药学特性、有效性、安全性、经济性和其他属性等5个维度进行量化打分。结果:所有纳入评价的DPP-4抑制剂的评分均>70分,依次为西格列汀79.0分、维格列汀72.8分、沙格列汀76.1分、利格列汀78.7分、阿格列汀76.9分。结论:基于指南的标准,本次评价涉及的5个原研DPP-4抑制剂的评价结论均为“保留”,强推荐。但是,本次药品评价维度较多,涉及药品在各维度均有不同的优势,各医疗机构可根据评价细则及权重,按照医疗机构特点和实际需求对评价结果进行采用。

血清TLR4、TIMP-1水平与小儿热性惊厥临床特征的关系及对继发癫痫的预测价值

目的分析血清Toll样受体4(TLR4)、基质金属蛋白酶组织抑制剂(TIMP)-1水平与小儿热性惊厥(FC)临床特征的关系及对FC继发癫痫的预测价值。方法选取2019年1月至2022年6月320例FC患儿作为研究组,另选取同期发热无惊厥儿童150例作为发热组,体检健康儿童150例作为对照组。根据FC患儿是否继发癫痫分为癫痫组和无癫痫组。采用酶联免疫吸附试验检测血清TLR4、TIMP-1水平,采用Pearson相关分析TLR4、TIMP-1水平及与临床指标间的相关性。采用受试者工作特征(ROC)曲线分析血清TLR4、TIMP-1预测FC继发癫痫的价值。采用Logistic回归分析FC患儿继发癫痫的影响因素。结果FC患儿、发热无惊厥儿童、体检健康儿童血清TLR4、TIMP-1水平依次降低,且两两比较,差异均有统计学意义(P<0.05)。研究组与发热组围生期异常发生情况、肿瘤坏死因子α(TNF-α)、C-反应蛋白(CRP)、白细胞介素-1β(IL-1β)水平和振幅整合脑电图(AEEG)评分比较,差异均有统计学意义(P<0.05)。癫痫组患儿血清TLR4、TIMP-1水平明显高于无癫痫组(P<0.05)。癫痫组和无癫痫组患儿首次惊厥次数、惊厥持续时间、首次惊厥前发热时间、围生期异常发生情况、TNF-α、CRP、IL-1β水平和AEEG评分比较,差异均有统计学意义(P<0.05)。血清TLR4水平与TIMP-1呈正相关(P<0.05);血清TLR4、TIMP-1水平与TNF-α、CRP、IL-1β呈正相关(P<0.05),与AEEG评分呈负相关(P<0.05)。TLR4、TIMP-1联合预测FC患儿继发癫痫的曲线下面积(AUC)明显高于单项检测的AUC(Z_(TLR4-联合)=3.016,P=0.003;Z_(TIMP-1-联合)=2.232,P=0.026)。Logistic回归分析结果表明,TLR4、TIMP-1、TNF-α、CRP、IL-1β水平升高,AEEG评分降低均为FC继发癫痫的危险因素(P<0.05)。结论血清TLR4、TIMP-1与FC患儿临床特征密切相关,TLR4、TIMP-1可能是FC继发癫痫的影响因素。

基于医院卫生技术评估的5种二肽基肽酶4抑制剂的临床应用情况

目的通过医院卫生技术评估(HB-HTA)对5种二肽基肽酶4抑制剂(DPP-4i)(西格列汀、维格列汀、沙格列汀、利格列汀和阿格列汀)进行评估,为医疗机构药品的遴选、临床的合理安全使用提供依据。方法通过HB-HTA,依照百分制评分体系,参考药品说明书、临床指南和文献,从安全性、有效性、经济型、创新性、适宜性和可及性等方面分别对5种DPP-4i进行评估。结果西格列汀、维格列汀、沙格列汀、利格列汀和阿格列汀得分分别为85.0、75.0、77.0、80.0、78.5分。评分差异主要在安全性、经济性、适宜性和可及性方面。西格列汀综合得分最高。结论HB-HTA评估DPP-4i结果比较合理,为医院药品遴选、安全合理使用提供依据。

血清LncRNA FAF、ITIH4在慢性心力衰竭患者中的表达意义及对预后的预测价值

目的探讨血清长链非编码RNA(LncRNA)FAF、间α胰蛋白酶抑制因子重链4(ITIH4)在慢性心力衰竭(CHF)患者中的表达意义及对预后的预测价值。方法选择2020年1月—2022年1月安徽医科大学第二附属医院急诊内科收治的CHF患者187例为CHF组,再根据NYHA心功能分级分为Ⅱ级亚组65例,Ⅲ级亚组77例,Ⅳ级亚组45例。于同期招募健康志愿者103例为健康对照组。2组受试者均检测血清LncRNA FAF表达和ITIH4水平,CHF患者出院后随访12个月,统计随访期间主要不良心血管事件(MACE)发生率;多因素Logistic回归分析影响CHF患者发生MACE的因素;受试者工作特征(ROC)曲线分析LncRNA FAF、ITIH4预测CHF患者发生MACE的价值。结果CHF组血清LncRNA FAF表达、ITIH4水平低于健康对照组(t/P=24.469/<0.001、35.196/<0.001)。血清LncRNA FAF表达、ITIH4水平Ⅳ级亚组低于Ⅲ级亚组低于Ⅱ级亚组(F/P=91.653/<0.001、102.345/<0.001)。MACE亚组血清LncRNA FAF表达,ITIH4水平低于非MACE亚组(t/P=13.556/<0.001、6.293/<0.001)。NYHAⅣ级、高水平NT-proBNP是CHF患者发生MACE的危险因素[OR(95%CI)=4.627(2.245~9.538)、2.284(1.505~3.468)],高表达LncRNA FAF、高水平ITIH4是保护因素[OR(95%CI)=0.599(0.425~0.844)、0.666(0.478~0.928)]。LncRNA FAF、ITIH4及二者联合预测CHF患者发生MACE的曲线下面积为0.796、0.801、0.896,二者联合预测曲线下面积高于单独预测(Z=2.453、2.404,均P<0.001)。结论CHF患者血清LncRNA FAF表达和ITIH4水平均降低,且与不良预后有关,联合LncRNA FAF和ITIH4可预测CHF患者预后不良风险。

新型4-苯氧基吡啶类c-Met激酶抑制剂的合成和抗肿瘤活性研究

为了发现新型高活性c-Met激酶抑制剂,以2-氨基-4-氯吡啶为原料,经醚化、酰化、烷基化、还原和酰化等多步反应,制备了6种未见文献报道的4-苯氧基吡啶类化合物,化合物结构经红外光谱、核磁共振氢谱和质谱确证.生物活性测试结果显示,6种化合物对MKN-45、A549、H460和HT-294种肿瘤细胞株具有很好的抗增殖活性,两种化合物对c-Met激酶具有很好的抑制活性.其中化合物7b抑制MKN-45、A549、H460和HT-29细胞株的IC 50值分别为1.89、5.14、0.74、0.60μmol/L.该化合物在1000 nmol/L和200 nmol/L的浓度下对c-Met激酶的抑制率分别为96.2%和82.8%,显示出了优异的抗肿瘤活性.

利用受体配体亲和技术筛选黄芩中血管紧张素转换酶2和二肽基肽酶4抑制剂

目的筛选中药黄芩中血管紧张素转换酶2(ACE2)和二肽基肽酶4(DPP-4)抑制剂。方法以ACE2和DPP-4作为靶蛋白,利用受体配体亲和超滤和液质联用技术,对黄芩中与ACE2和DPP-4亲和的化合物进行筛选和分析,以筛选具有同时抑制ACE2和DPP-4的化合物。结果从黄芩中筛选出了5,7,2′,6′-4羟基黄酮、5,7,2′,5′-4羟基-8,6′-二甲氧基黄酮、白杨素-7-O-葡萄糖醛酸苷、黄芩素-6-O-葡萄糖醛酸苷、千层纸素A-7-O-葡萄糖醛酸苷、汉黄芩苷、白杨素、千层纸素A,可以同时亲和抑制ACE2和DPP-4,具有潜在的抗新型冠状病毒的作用。结论从黄芩中筛选出与新型冠状病毒肺炎有关的靶蛋白抑制剂,具备潜在开发价值。

二肽基肽酶4抑制剂对2型糖尿病患者肌酐水平影响的Meta分析

[目的]探讨二肽基肽酶4抑制剂(DPP-4i)对2型糖尿病(T2DM)患者血清肌酐(Cr)的影响。[方法]系统检索PubMed、Embase、Cochrane Library和Web of Science数据库,纳入DPP-4i治疗T2DM患者调节Cr的随机对照试验(RCT)。采用固定效应或随机效应模型进行数据拟合,采用I^(2)指数定量评价异质性,使用标准方法进行敏感性分析和发表偏倚检验。[结果]经系统检索数据库,纳入12项RCT,共计2276名受试者。由于潜在异质性的原因,故采用随机效应模型进行数据拟合,DPP-4i治疗可轻度提高T2DM患者的Cr水平(WMD:0.15 mg/L,95%CI:0.03~0.27,I^(2)=18%,P=0.02),结果具有统计学差异。根据敏感性测试,Meta分析其结果较为可靠。同时进行Begg’s与Egger’s检验,未见发表偏倚。[结论]T2DM患者应用DPP-4i进行降糖治疗,可能会出现血Cr水平轻度升高。未来还需开展更大样本量的多中心研究,以进一步探讨DPP-4i治疗引起Cr水平改变的临床意义。

CDK4/6抑制剂在HR^(+)晚期乳腺癌治疗中的耐药机制及进展后治疗策略

细胞周期蛋白依赖性激酶4/6(CDK4/6)抑制剂联合内分泌治疗已成为激素受体阳性(HR^(+))、人类表皮生长因子受体-2阴性(HER2^(-))乳腺癌患者的晚期一线及二线标准治疗方案。尽管CDK4/6抑制剂可实现有效的疾病控制,但对于晚期乳腺癌患者最终仍会因耐药出现疾病进展。目前CDK4/6抑制剂相关耐药机制尚不完全清楚,同时治疗失败后的最佳治疗策略仍是一个亟待解决的问题。本文就CDK4/6抑制剂的潜在耐药机制和后续治疗策略的最新研究进展做一综述。

DPP4抑制剂在2型糖尿病中的临床应用及研究进展

2型糖尿病(Type 2 Diabetes Mellitus,T2DM)在我国具有较高的发病率,是中老年患者常见的一种慢性代谢疾病,可累及心脑血管等多个系统发生病变,危及生命安全,需及时治疗。二肽基肽酶-4(Dipeptidyl Peptidase-4,DPP4)可促进胰岛素生成,并分泌胰高血糖素,与T2DM有着密切关联,是目前我国T2DM治疗研究中的一个新方向。DPP4抑制剂是多项研究的结果,能够提高降糖效果,对多种降糖无效的患者均有显著作用。基于此,本文主要综述了DPP4抑制剂治疗T2DM的作用机制,分析DPP4抑制剂在T2DM中的应用及研究进展,以期为T2DM治疗提供参考。

GLP-1RA与DPP-4i治疗2型糖尿病的疗效及对患者并发症的影响

目的探讨胰高糖素样肽1受体激动剂(GLP-1RA)与二肽基肽酶4抑制剂(DPP-4i)治疗2型糖尿病(T2MD)的疗效及对患者并发症的影响。方法选取2020年6月至2022年6月邯郸市第一医院收治的110例T2MD随机分为GLP-1RA组和DPP-4i组,每组55例,GLP-1RA组采用利拉鲁肽或艾塞那肽治疗,DPP-4i组采用西格列汀或利格列汀治疗。对比2组临床疗效,治疗前后糖脂代谢指标[空腹血糖(FPG)、糖化血红蛋白(HbA1c)、总胆固醇、三酰甘油]、炎症指标[白介素-6(IL-6)、C反应蛋白(CRP)、中性粒细胞/淋巴细胞(NLR)]、肾功能[尿素氮、肌酐、胱抑素C];观察并统计2组并发症及不良反应。结果2组总有效率、并发症总发生率比较差异均无统计学意义(P>0.05)。治疗18周后,2组FPG、HbA1c、三酰甘油、总胆固醇水平低于治疗前,且GLP-1RA组低于DPP-4i组(P<0.05)。治疗18周后,2组IL-6、CRP、NLR水平低于治疗前(P<0.05),但2组间差异无统计学意义(P>0.05)。2组治疗前和治疗18周后尿素氮、肌酐、胱抑素C水平比较差异均无统计学意义(P>0.05)。GLP-1RA组不良反应总发生率高于DPP-4i组(P<0.05)。结论GLP-1RA与DPP-4i均能改善T2MD患者糖脂水平,减轻炎性反应,保护肾功能,预防并发症发生,但GLP-1RA在控制血糖、调脂方面优于DPP-4i,而DPP-4i耐受性更好。

Repositioning of dipeptidyl peptidase-4 inhibitors and glucagon like peptide-1 agonists as potential neuroprotective agents

Repositioning of dipeptidyl peptidase-4 inhibitors and glucagon like peptide-1 receptor agonists is a breakthrough in the field of neural regeneration research increasing glucagon like peptide-1 bioavailability, hence its neuroprotective activities. In this article, the authors suggest not only crossing blood-brain barrier and neurodegenerative disease as off target for dipeptidyl peptidase-4 inhibitors and glucagon like peptide-1 receptor agonists, but also for ophthalmic preparations for diabetic retinopathy, which may be the latest breakthrough in the field if prepared and used in an appropriate nano-formulation to target the retinal nerves. The relation of neurodegenerative diseases' different mechanisms to the dipeptidyl peptidase-4 inhibitors and glucagon like peptide-1 receptor agonists should be further examined in preclinical and clinical settings. The repositioning of already marketed antidiabetic drugs for neurodegenerative diseases should save the high cost of the time-consuming normal drug development process. Drug repositioning is a hot topic as an alternative to molecular target based drug discovery or therapeutic switching. It is a relatively inexpensive pathway due to availability of previous pharmacological and safety data. The glucagon like peptide-1 produced in brain has been linked to enhanced learning and memory functions as a physiologic regulator in central nervous system by restoring insulin signaling. Intranasal administration of all marketed gliptins(or glucagon like peptide-1 receptor agonists) may show enhanced blood-brain barrier crossing and increased glucagon like peptide-1 levels in the brain after direct crossing of the drug for the olfactory region, targeting the cerebrospinal fluid. Further blood-brain barrier crossing tests may extend dipeptidyl peptidase-4 inhibitors' effects beyond the anti-hyperglycemic control to intranasal spray, intranasal powder, or drops targeting the blood-brain barrier and neurodegenerative diseases with the most suitable formula. Moreover, novel nano-formulation is encouraged either to obtain favorable pharmacokinetic parameters or to achieve promising blood-brain barrier penetration directly through the olfactory region. Many surfactants should be investigated either as a solubilizing agent for hydrophobic drugs or as penetration enhancers. Different formulae based on in vitro and in vivo characterizations, working on sister gliptins(or glucagon like peptide-1 receptor agonists), different routes of administration, pharmacokinetic studies, dose response relationship studies, monitoring of plasma/brain concentration ratio after single and multiple dose, and neurodegenerative disease animal models are required to prove the new method of use(utility) for dipeptidyl peptidase-4 inhibitors as potential neuroprotective agents. Furthermore, investigations of glucagon like peptide-1 receptor agonists' neuroprotective effects on animal models will be considered carefully because they crossed the blood-brain barrier in previous studies, enabling their direct action on the central nervous system. Combination therapy of dipeptidyl peptidase-4 inhibitors or glucagon like peptide-1 receptor agonists with already marketed drugs for neurodegenerative disease should be considered, especially regarding the novel intranasal route of administration.

Treatment of type 2 diabetes, lifestyle, GLP1 agonists and DPP4 inhibitors

In recent years the treatment focus for type 2 diabetes has shifted to prevention by lifestyle change and to more aggressive reduction of blood sugars during the early stage of treatment. Weight reduction is an important goal for many people with type 2 diabetes.Bariatric surgery is no longer considered a last resort treatment. Glucagon-like peptide-1 agonists given by injection are emerging as a useful treatment since they not only lower blood sugar but are associated with a modest weight reduction. The role of the oral dipeptidyl peptidase 4 inhibitors is emerging as second line treatment ahead of sulphonylureas due to a possible beneficial effect on the beta cell and weight neutrality.Drugs which inhibit glucose re-absorption in the kidney,sodium/glucose co-transport 2 inhibitors, may have a role in the treatment of diabetes. Insulin treatment still remains the cornerstone of treatment in many patients with type 2 diabetes.

Diabetes therapies in hemodialysis patients: Dipeptidase-4 inhibitors

Although several previous studies have been published on the effects of dipeptidase-4(DPP-4) inhibitors in diabetic hemodialysis(HD) patients, the findings have yet to be reviewed comprehensively. Eyesight failure caused by diabetic retinopathy and aging-related dementia make multiple daily insulin injections difficult for HD patients. Therefore, we reviewed the effects of DPP-4 inhibitors with a focus on oral antidiabetic drugs as a new treatment strategy in HD patients with diabetes. The following 7 DPP-4 inhibitors are available worldwide: sitagliptin, vildagliptin, alogliptin, linagliptin, teneligliptin, anagliptin, and saxagliptin. All of these are administered once daily with dose adjustments in HD patients. Four types of oral antidiabetic drugs can be administered for combination oral therapy with DPP-4 inhibitors, including sulfonylureas, meglitinide, thiazolidinediones, and alpha-glucosidase inhibitor. Nine studies examined the antidiabetic effects in HD patients. Treatments decreased hemoglobin A1 c and glycated albumin levels by 0.3% to 1.3% and 1.7% to 4.9%, respectively. The efficacy of DPP-4 inhibitor treatment is high among HD patients, and no patients exhibited significant severe adverse effects such as hypoglycemia and liver dysfunction. DPP-4 inhibitors are key drugs in new treatment strategies for HD patients with diabetes and with limited choices for diabetes treatment.

NADPH oxidase 4(NOX4)as a biomarker and therapeutic target in neurodegenerative diseases

Diseases like Alzheimer’s and Parkinson’s diseases are defined by inflammation and the damage neurons undergo due to oxidative stress. A primary reactive oxygen species contributor in the central nervous system, NADPH oxidase 4, is viewed as a potential therapeutic touchstone and indicative marker for these ailments. This in-depth review brings to light distinct features of NADPH oxidase 4, responsible for generating superoxide and hydrogen peroxide, emphasizing its pivotal role in activating glial cells, inciting inflammation, and disturbing neuronal functions. Significantly, malfunctioning astrocytes, forming the majority in the central nervous system, play a part in advancing neurodegenerative diseases, due to their reactive oxygen species and inflammatory factor secretion. Our study reveals that aiming at NADPH oxidase 4 within astrocytes could be a viable treatment pathway to reduce oxidative damage and halt neurodegenerative processes. Adjusting NADPH oxidase 4 activity might influence the neuroinflammatory cytokine levels, including myeloperoxidase and osteopontin, offering better prospects for conditions like Alzheimer’s disease and Parkinson’s disease. This review sheds light on the role of NADPH oxidase 4 in neural degeneration, emphasizing its drug target potential, and paving the path for novel treatment approaches to combat these severe conditions.

Drug repurposing of histone deacetylase inhibitors that alleviate neutrophilic inflammation in acute lung injury and idiopathic pulmonary fibrosis via inhibiting leukotriene a4 hydrolase and blocking LTB4 biosynthesis

OBJECTIVE Leukotriene B4(LTB4)biosynthesis and subsequently neutrophilic inflammation may provide a potential strategy for the treatment of acute lung injury(ALI)or idiopathic pulmonary fibrosis(IPF).To provide a potential strategy for the treatment of ALI or IPF,we identified potent inhibitors of Leukotriene A4 hydrolase(LTA4H),a key enzyme in the biosynthesis of LTB4.METHODS In this study,we identified two known histone deacetylase(HDAC)inhibitors,suberanilohydroxamic acid(SAHA)and its analogue 4-(dimethylamino)-N-[7-(hydroxyamino)-7-oxoheptyl]benzamide(M344),as effective inhibitors of LTA4H using enzymatic assay,thermofluor assay,and X-ray crystallographic investigation.We next tested the effect of SAHA and M344 on endogenous LTB4 biosynthesis in neutrophils by ELISA and neutrophil migration by transwell migration assay.A murine experimental model of ALI was induced by lipopolysaccharide(LPS)inhalation.Histopathological analysis of lung tissue using H&E staining revealed the serious pulmonary damage caused by LPS treatment and the effect of the SAHA.We next examined m RNA and protein levels of pro-inflammatory cytokines in lung tissue and bronchoalveolar lavage fluid using q RT-PCR and ELISA to further investigate the underlying mechanisms of anti-inflammatory activities by SAHA.We also investigated the effects of SAHA and M344 on a murine experimental model of bleomycin(BLM)-induced IPF model.RESULTS The results of enzymatic assay and X-ray crystallography showed that both SAHA and M344 bind to LTA4H,significantly decrease LTB4 levels in neutrophil,and markedly diminish early neutrophilic inflammation in mouse models of ALI and IPF under a clinical safety dose.CONCLUSION Collectively,SAHA and M344 would provide promising agents with well-known clinical safety for potential treatment in patients with ALI and IPF via pharmacologically inhibiting LAT4H and blocking LTB4 biosynthesis.

Synthesis of 5-substituted benzyl-2,4-diamino pyrimidine derivatives as c-Fms kinase inhibitors

A serials of novel 5-substituted benzyl-2,4-diamino pyrimidine derivatives have been synthesized and evaluated as inhibitors of c-Fms kinase by the standard MTT method.The results showed that compound 15,5-[3-methoxy-4-（pyridine-3-yl）benzyl]-2,4-diamino pyrimidine,had an IC50 of 1.45μmol/L in inhibiting the proliferation of M-CSF-dependent myeloid leukemia cells in mice （NFS-60）,which was similar with GW2580,a selective inhibitor of c-Fms kinase.