Key factors and potential drug combinations of nonalcoholic steatohepatitis:Bioinformatic analysis and experimental validation-based study

Background:Nonalcoholic fatty liver disease and its advanced stage,nonalcoholic steatohepatitis(NASH),are the major cause of hepatocellular carcinoma(HCC)and other end-stage liver disease.However,the potential mechanism and therapeutic strategies have not been clarified.This study aimed to identify potential roles of mi RNA/m RNA axis in the pathogenesis and drug combinations in the treatment of NASH.Methods:Microarray GSE59045 and GSE48452 were downloaded from the Gene Expression Omnibus and analyzed using R.Then we obtained differentially expressed genes(DE-genes).DAVID database was used for Gene Ontology(GO)analysis and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment pathway analysis.Protein-protein interaction(PPI)networks were used for the identification of hub genes.We found upstream regulators of hub genes using mi RTar Base.The expression and correlation of key mi RNA and its targets were detected by q PCR.Drug Pair Seeker was employed to predict drug combinations against NASH.The expression of mi RNA and hub genes in HCC was identified in the Cancer Genome Atlas database and Human Protein Atlas database.Results:Ninety-four DE-genes were accessed.GO and KEGG analysis showed that these predicted genes were linked to lipid metabolism.Eleven genes were identified as hub genes in PPI networks,and they were highly expressed in cells with vigorous lipid metabolism.hsa-mi R-335-5 p was the upstream regulator of 9 genes in the 11 hub genes,and it was identified as a key mi RNA.The hub genes were highly expressed in NASH models,while hsa-mi R-335-5 p was lowly expressed.The correlation of mi RNA-m RNA was established by q PCR.Functional verification indicated that hsa-mi R-335-5 p had inhibitory effect on the development of NASH.Finally,drug combinations were predicted and the expression of mi RNA and hub genes in HCC was identified.Conclusions:In the study,potential mi RNA-m RNA pathways related to NASH were identified.Targeting these pathways may be novel strategies against NASH.

Mouse tumor susceptibility genes identify drug combinations for multiple myeloma

Long-term genetic studies utilizing backcross and congenic strain analyses coupled with positional cloning strategies and functional studies identified Cdkn2a,Mtor,and Mndal as mouse plasmacytoma susceptibility/resistance genes.Tumor incidence data in congenic strains carrying the resistance alleles of Cdkn2a and Mtor led us to hypothesize that drug combinations affecting these pathways are likely to have an additive,if not synergistic effect in inhibiting tumor cell growth.Traditional and novel systems-level genomic approaches were used to assess combination activity,disease specificity,and clinical potential of a drug combination involving rapamycin/everolimus,an Mtor inhibitor,with entinostat,an histone deacetylase inhibitor.The combination synergistically repressed oncogenic MYC and activated the Cdkn2a tumor suppressor.The identification of MYC as a primary upstream regulator led to the identification of small molecule binders of the G-quadruplex structure that forms in the NHEIII region of the MYC promoter.These studies highlight the importance of identifying drug combinations which simultaneously upregulate tumor suppressors and downregulate oncogenes.

Synergistic drug combinations prediction by integrating pharmacological data

There is compelling evidence that synergistic drug combinations have become promising strategies for combating complex diseases,and they have evident predominance comparing to traditional one drug-one disease approaches.In this paper,we develop a computational method,namely SyFFM,that takes pharmacological data into consideration and applies field-aware factorization machines to analyze and predict potential synergistic drug combinations.Firstly,features of drug pairs are constructed based on associations between drugs and target,and enzymes,and indication areas.Then,the synergistic scores of drug combinations are obtained by implementing field-aware factorization machines on latent vector space of these features.Finally,synergistic combinations can be predicted by introducing a threshold.We applied SyFFM to predict pairwise synergistic combinations and three-drug synergistic combinations,and the performance is good in terms of cross-validation.Besides,more than 90%combinations of the top ranked predictions are proved by literature and the analysis of parameters in model shows that our method can help to investigate and explain synergistic mechanisms underlying combinatorial therapy.

Effects of Taxotere on invasive potential and multidrug resistance phenotype in pancreatic carcinoma cell line SUIT-2

INTRODUCTIONDevelopment of drug-resistance to chemotherapyand subsequent metastasis of tumor are primarilyresponsible for treatment failure and the death fromcancer. There have been many previous studies onthe relationship between expression of multidrugresistance (MDR) phenotype P-glycoprotein (P-gp)and the malignant properties of tumors, but theresults are often conflicting[1-8]. The difference intumor types or MDR phenotype induced by specificagents might account for this discrepancy. Taxotere(TXT), a member of the family of taxanes, hasantitumor activity through its effect of promotingthe polymerization of tubulin[9,10].

A proteomic landscape of pharmacologic perturbations for functional relevance

Pharmacological perturbation studies based on protein-level signatures are fundamental for drug discovery. In the present study, we used a mass spectrometry (MS)-based proteomic platform to profile the whole proteome of the breast cancer MCF7 cell line under stress induced by 78 bioactive compounds. The integrated analysis of perturbed signal abundance revealed the connectivity between phenotypic behaviors and molecular features in cancer cells. Our data showed functional relevance in exploring the novel pharmacological activity of phenolic xanthohumol, as well as the noncanonical targets of clinically approved tamoxifen, lovastatin, and their derivatives. Furthermore, the rational design of synergistic inhibition using a combination of histone methyltransferase and topoisomerase was identified based on their complementary drug fingerprints. This study provides rich resources for the proteomic landscape of drug responses for precision therapeutic medicine.

Application of the Drugs for Expelling the Pathogenic Wind in Treatment of Chronic Diarrhea

Chronic diarrhea can be divided into four types:retention of dampness leading to blockage of qi,invasion of the intestines by pathogenic wind,damp-retention due to deficiency of the spleen, andstagnation of the liver-qi with deficiency of thespleen.

Complex diseases demand novel treatment strategies: understanding drug combination

For many multigene or multifactorial diseases,the one-drug therapy for inhibiting a defined molecular target is often less effective than combined treatments.Typically,drug combination therapies are multitargeted,so the mechanisms or even interactions are often complementary.These drug-drug interactions may promote alteration of pharmacokinetic or pharmacodynamic activities of one drug by another drug.Other interactions may change the expected effect of medications through polymorphisms that alter the expression or activity of the drug-mediated enzyme and the cell signaling cascade,such as drug-gene interactions and drug-drug-gene interactions.The number of possible existing interactions requires appropriate methods of study.In this review,we summarized combination therapies for cancer,as well as for viral,cardiovascular,and neurological diseases.Here,we also highlight known methodologies,such as in vitro methods based on Loewe’s and Bliss’s pioneer models and in silico methods based on online available data.With more elaborate methods and reliable results,multitarget therapies through drug combinations may increasingly benefit patients suffering from complex diseases.

Immuno-oncology combinations： raising the tail of the survival curve

There have been exponential gains in immuno-oncology in recent times through the development of immune checkpoint inhibitors. Already approved by the U.S. Food and Drug Administration for advanced melanoma and non-small cell lung cancer,immune checkpoint inhibitors also appears to have significant antitumor activity in multiple other tumor types. An exciting component of immunotherapy is the durability of antitumor responses observed, with some patients achieving disease control for many years. Nevertheless, not all patients benefit, and efforts should thus now focus on improving the efficacy of immunotherapy through the use of combination approaches and predictive biomarkers of response and resistance. There are multiple potential rational combinations using an immunotherapy backbone, including existing treatments such as radiotherapy, chemotherapy or molecularly targeted agents, as well as other immunotherapeutics. The aim of such antitumor strategies will be to raise the tail on the survival curve by increasing the number of long term survivors, while managing any additive or synergistic toxicities that may arise with immunotherapy combinations. Rational trial designs based on a clear understanding of tumor biology and drug pharmacology remain paramount. This article reviews the biology underpinning immuno-oncology, discusses existing and novel immunotherapeutic combinations currently in development, the challenges of predictive biomarkers of response and resistance and the impact of immuno-oncology on early phase clinical trial design.

Drug-drug cocrystals:Opportunities and challenges

Recently,drug-drug cocrystal attracts more and more attention.It offers a low risk,low-cost but high reward route to new and better medicines and could improve the physiochemical and biopharmaceutical properties of a medicine by addition of a suitable therapeutically effective component without any chemical modification.Having so many advantages,to date,the reported drug-drug cocrystals are rare.Here we review the drug-drug cocrystals that reported in last decade and shed light on the opportunities and challenges for the development of drug-drug cocrystals.

Coptis,Pinellia,and Scutellaria as a promising new drug combination for treatment of Helicobacter pylori infection

BACKGROUND Helicobacter pylori(H.pylori)is the most important infectious agent and plays an important role in the progression of chronic gastritis and the development of gastric cancer.AIM To identify efficient therapeutic agents or strategies that can treat H.pylori infection.METHODS We performed literature analysis,experimental validation,and network pharmacology.First,traditional Chinese medicine(TCM)prescriptions for the treatment of H.pylori infection were obtained from the China National Knowledge Infrastructure,China Biology Medicine,China Science and Technology Journal Database,and WanFang databases.In addition,we conducted a relevant search by Reference Citation Analysis(RCA)(https://www.referencecitationanalysis.com).Next,we used TCM Inheritance Support System V2.5 to identify core drug combinations in the TCM prescriptions.Then,an H.pylori-associated chronic mouse model of gastritis was established.The antibacterial properties and antiinflammatory potential of the core drug combination were evaluated by the rapid urease test,modified Warthin-Starry silver staining,histopathological analysis,and enzyme linked immunosorbent assay.Finally,the active compounds,hub targets,and potential signaling pathways associated with the core drug combination were analyzed by network pharmacology.RESULTS The TCM treatment of H.pylori was mainly based on reinforcing the healthy Qi and eliminating pathogenic factors by simultaneously applying pungent dispersing,bitter descending,cold and warm drugs.The combination of Coptis,Pinellia,and Scutellaria(CPS)was identified as the core drug combination from 207 prescriptions and 168 herbs.This drug combination eradicated H.pylori,alleviated the gastric pathology induced by H.pylori infection,and reduced the expression levels of tumor necrosis factor-α(P=0.024)and interleukin-1β(P=0.001).Moreover,a total of 35 compounds and 2807 targets of CPS were identified using online databases.Nine key compounds(tenaxin I,neobaicalein,norwogonin,skullcapflavone II,baicalein,5,8,2'-trihydroxy-7-methoxyflavone,acacetin,panicolin,and wogonin)and nine hub target proteins(EGFR,PTGS2,STAT3,MAPK3,MAPK8,HSP90AA1,MAPK1,MMP9,and MTOR)were further explored.Seventy-seven signaling pathways were correlated with H.pylori-induced inflammation and carcinogenesis.CONCLUSION In summary,we showed that CPS is the core drug combination for treating H.pylori infection.Animal experiments demonstrated that CPS has bacteriostatic properties and can reduce the release of inflammatory cytokines in the gastric mucosa.Network pharmacology predictions further revealed that CPS showed complex chemical compositions with multi-target and multipathway regulatory mechanisms.Although the results derived from network pharmacology are not necessarily comprehensive,they still expand our understanding of CPS for treating H.pylori infection.

Portable and automated analyzer for rapid and high precision in vitro dissolution of drugs

We developed a novel portable and automated dissolution test analyzer for rapid and high precision in vitro dissolution testing of drugs.The analyzer consists of a flow-through-cell drug dissolution system,an automated sequential sampling system,a high-speed capillary electrophoresis(HSCE)system,and a data acquisition system.Combining the high-temporal resolution flow-gating sampling approach with HSCE,which has outstanding advantages of efficient separation and resolution,the analyzer can achieve rapid analysis and exhibits the ability in miniaturization for on-site assessment of different active pharmaceutical ingredients.To integrate the flow-through-cell dissolution system with HSCE,a specially designed flow-gating-injection(FGI)interface was employed.The performance of the analyzer was investigated by analyzing the dissolution of immediate-release drugs including single dose(amoxicillin dispersible tablets)and fixed dose combination(amoxicillin and clavulanate potassium)drug tablets with the high-temporal resolutions of 12 s and 20 s,respectively.The dissolution profiles of different active pharmaceutical ingredients could be simultaneously and automatically monitored with high repeatability and accuracy.The analyzer was successfully utilized for the pharmaceutical quality control and bio-relevant dissolution testing,as well as in vivo-in vitro correlation analysis.Our portable analyzer is miniaturized,convenient and of low-cost,and will provide a valuable tool for dissolution testing in pharmaceutical research and development.

Advances in drug delivery system for platinum agents based combination therapy

Platinum-based anticancer agents are widely used as first-line drugs in cancer chemotherapy for various solid tumors. However, great side effects and occurrence of resistance remain as the major drawbacks for almost all the platinum drugs developed. To conquer these problems, new strategies should be adopted for platinum drug based chemotherapy. Modern nanotechnology has been widely employed in the delivery of various therapeutics and diagnostic. It provides the possibility of targeted delivery of a certain anticancer drug to the tumor site, which could minimize toxicity and optimize the drug efficacy. Here, in this review, we focused on the recent progress in polymer based drug delivery systems for platinum-based combination therapy.

The Antagonistic Action of Heat-Clearing and Detoxifying Chinese Drugs on Endotoxins

In the recent decade, interest in treatment and prevention of many critical, severe and acute diseases caused by bacterial endotoxins has been aroused along with the advance of the knowledge on the nature of the endotoxin and the conditions involved. In abroad, attention has been mainly payed to raising antisera and monocolonal antibodies against the endotoxin and the induced mediators. However, the allergic reactions and the cost are still the problems. Till now, there is no drug that can antagonize endotoxin with high effectiveness and low toxicity. Clinical treatments are still confined in inhibiting or killing the pathogen, and correcting the internal environmental disturbance. Being less toxic and rich in resources with low cost and less side-effects, screening of effective Chinese drugs for antagonizing endotoxin is of important and practical significance. Endotoxin belongs to the category of toxic evils, or more precisely, the heat toxin in TCM. Therefore the application of heat-clearing and detoxifying Chinese drugs to antagonizing endotoxins is consistent with the theory of TCM. Some achievements in this field are reported as follows.

Current and novel approaches in the pharmacological treatment of hepatocellular carcinoma

Hepatocellular carcinoma(HCC)is one of the most lethal malignant tumours worldwide.The mortality-to-incidence ratio is up to 91.6%in many countries,representing the third leading cause of cancer-related deaths.Systemic drugs,including the multikinase inhibitors sorafenib and lenvatinib,are first-line drugs used in HCC treatment.Unfortunately,these therapies are ineffective in most cases due to late diagnosis and the development of tumour resistance.Thus,novel pharmacological alternatives are urgently needed.For instance,immune checkpoint inhibitors have provided new approaches targeting cells of the immune system.Furthermore,monoclonal antibodies against programmed cell death-1 have shown benefits in HCC patients.In addition,drug combinations,including first-line treatment and immunotherapy,as well as drug repurposing,are promising novel therapeutic alternatives.Here,we review the current and novel pharmacological approaches to fight HCC.Preclinical studies,as well as approved and ongoing clinical trials for liver cancer treatment,are discussed.The pharmacological opportunities analysed here should lead to significant improvement in HCC therapy.

CLINICAL OBSERVATION ON 40 CASES OF ANKYLOSING SPONDYLITIS TREATED WITH ACUPUNCTURE AND CHINESE DRUGS

Objective： To observe the clinical therapeutic effect of acupuncture plus Chinese herbal medicines for ankylceing Methods： A total of 80 cases of AS patients were evenly and randomly divided into treatment group and control group. In treatment group, patients were treated with acupuncture of Jiaji （夹脊 EX-B 2） and oral administration of Yishen Tongdu Won （益肾通督丸,Bolus for Reinforcing the Kidney and Dredging Governor Vessesl） and those of control group treated with oral administration of Sulfasalazin （0.5 g, twice daily）. Before and after treatment, the thoracic-dilaion scale, Schober test, Bath ankylceing spondylitis disease activity index （BASDAI）, Bath ankylosing spondylitis functional index （BASFI）, erythrocyte sedimentation rate （ESR） and C-reaction protein （CRP） were detected separately. Results： After 6 months of treatment, of the both 40cases in treatment and control groups, 27 （67.5%） and 13 （32.5%） were improved remarkably, 11 （27.5%） and 16 （40.0%） effective, and 2 （5.0%） and 11 （27.5%） failed, with the effective rates being 95.0% and 72.5% separately. The therapeutic effect of treatment group was significantly superior to that of control group （P〈 0.05）. After treatment, the thoracicdilaion scale and Schober test values increased significantly （ P〈 0.05）, while BASDAI, BASFI, ESR and CRP lowered considerably （P〈0.01, P〈0.05）. Comparison between two groups indicated that after treatment, the decreased values of BASDAI, BASFI, ESR and CRP of treatment group were significantly lower than those of control group （ P〈 0.01 ）, while those of the thoracio-dilaion scale and Schober test of treatment group were significantly higher than those of control group （ P 〈 0.05, P 〈 0.01 ）. Results displayed that both acupuncture combined with Chinese drugs and Sulfasalazin could lower BASDAI, BASFI, ESR and CRP, raise the thoracic-dilaion scale and Schober test values considerably in AS patients, and the therapeutic effect of combined acupunclure and Chinese drugs was apparently superior to that of Westem medicine. Conclusion： Joint application of acupuncture and Chinese drugs is superior to Western medicine in the therapeutic effect for AS and has fewer side effects.

Trend Analysis of Combined Drugs Creation （for Example Acetylsalicylic Acid）

The pharmaceutical market of Ukraine in January 2015 was registered 71 drug based acetylsalicylic acid （ASA）, for which 52% combined. The most common combinations of ASA with acetaminophen and caffeine （45.9%）, magnesium hydroxide （18.9%）, bisoprolol （10.8%）, ascorbic acid （8.1%）, clopidogrel （5.4%）. Comparing markets combined drugs ASA of Ukraine, the Russian Federation, 28 EU countries, Norway, Switzerland, India, Syria, Australia and the USA identified the active pharmaceutical ingredients, combined with ASA in a single dosage form. The analysis of questionnaires 40 pharmacists pharmacies Temopil, Khmelnytsky and Kyiv regions of Ukraine noted that the biggest demand is mono-drugs ASA, Citramon, Askofen and Cardiomagnyl Methods of pharmacoeconomic studies proved efficient use Upsaryn UPSA with vitamin C tabl. spike, tuba in box number 20 BMS （France）, Citramon tablets number 6 PJSC ＂Monfarm＂ （Ukraine） and Cardiomagnyl tabl. film-coated shell 75 mg in bottle number 100 Nycomed Austria （Austria）. On the basis of six State Forms of drugs in Ukraine （2009-2014） was found that the combination of drugs based on ASA is recommended to use of ascorbic acid （Aspiryn C, Asprovit C, Upsarin UPSA with vitamin C）, dipyridamole （Agrenox）, magnesium hydroxide （Cardiomagnyl, Cardiomagnyl Forte）. Some of the standard combination of ASA （combination of paracetamol and caffeine） are not in form. For optimize State Form of drugs by improving health system in Ukraine can be useful pharmacoeconomic analysis of combination therapies with the current official system to note the combination of ASA with statins, esomeprazole, isosorbide.

Measuring drug similarity using drug–drug interactions

Combination therapy is a promising approach to address the challenge of antimicrobial resistance,and computational models have been proposed for predicting drug–drug interactions.Most existing models rely on drug similarity measures based on characteristics such as chemical structure and the mechanism of action.In this study,we focus on the network structure itself and propose a drug similarity measure based on drug–drug interaction networks.We explore the potential applications of this measure by combining it with unsupervised learning and semi-supervised learning approaches.In unsupervised learning,drugs can be grouped based on their interactions,leading to almost monochromatic group–group interactions.In addition,drugs within the same group tend to have similar mechanisms of action(MoA).In semi-supervised learning,the similarity measure can be utilized to construct affinity matrices,enabling the prediction of unknown drug–drug interactions.Our method exceeds existing approaches in terms of performance.Overall,our experiments demonstrate the effectiveness and practicability of the proposed similarity measure.On the one hand,when combined with clustering algorithms,it can be used for functional annotation of compounds with unknown MoA.On the other hand,when combined with semi-supervised graph learning,it enables the prediction of unknown drug–drug interactions.

Immunotherapy for recurrent hepatocellular carcinoma

Hepatocellular carcinoma(HCC)is presented frequently in late stages that are not amenable for curative treatment.Even for patients who can undergo resection for curative treatment of HCC,up to 50%recur.For patients who were not exposed to systemic therapy prior to recurrence,recurrence frequently cannot be subjected to curative therapy or local treatments.Such patients have several options of immunotherapy(IO).This includes programmed cell death protein 1(PD-1)and cytotoxic T-lymphocyte associated protein 4 treatment,combination of PD-1 and vascular endothelial growth factor inhibitor or single agent PD-1 therapy when all other options are deemed inappropriate.There are also investigational therapies in this area that explore either PD-1 and tyrosine kinase inhibitors or a novel agent in addition to PD-1 with vascular endothelial growth factor inhibitors.This minireview explored IO options for patients with recurrent HCC who were not exposed to systemic therapy at the initial diagnosis.We also discussed potential IO options for patients with recurrent HCC who were exposed to first-line therapy with curative intent at diagnosis.

Cocktail hepatocarcinoma therapy by a super-assembled nano-pill targeting XPO1 and ATR synergistically

Intensive cancer treatment with drug combination is widely exploited in the clinic but suffers from inconsistent pharmacokinetics among different therapeutic agents.To overcome it,the emerging nanomedicine offers an unparalleled opportunity for encapsulating multiple drugs in a nano-carrier.Herein,a two-step super-assembled strategy was performed to unify the pharmacokinetics of a peptide and a small molecular compound.In this proof-of-concept study,the bioinformatics analysis firstly revealed the potential synergies towards hepatoma therapy for the associative inhibition of exportin 1(XPO1)and ataxia telangiectasia mutated-Rad3-related(ATR),and then a super-assembled nano-pill(gold nano drug carrier loaded AZD6738 and 97110 amino acids of apoptin(AP)(AA@G))was constructed through camouflaging AZD6738(ATR small-molecule inhibitor)-binding human serum albumin onto the AP-Au supramolecular nanoparticle.As expected,both in vitro and in vivo experiment results verified that the AA@G possessed extraordinary biocompatibility and enhanced therapeutic effect through inducing cell cycle arrest,promoting DNA damage and inhibiting DNA repair of hepatoma cell.This work not only provides a co-delivery strategy for intensive liver cancer treatment with the clinical translational potential,but develops a common approach to unify the pharmacokinetics of peptide and small-molecular compounds,thereby extending the scope of drugs for developing the advanced combination therapy.

Effect of cerebralcare granule®combined with donepezil on Alzheimer’s disease

Background:The current prevalence of Alzheimer’s disease(AD)in the elderly has risen from 1%at 65 to 40%to 50%at 95,and the overall proportion is rising.Emerging evidence suggests that ros-driven oxidative stress is a crucial mediator of the aging process.Thus,in recent years,oxidative damage and inflammation have become targets for exploring pharmacological strategies for treating age-related diseases.Methods:In C57BL/6J mice,to determine whether the mechanism of action of cerebralcare granule®(CG)combined with donepezil(Don)treatment is better than dementia alone,we constructed a mouse model and treated it with CG in combination with Don.Results:A combination of Don and CG significantly reduces the damage caused by lipid peroxidation in the hippocampus of AD mice,reduces oxidative damage,and reduces inflammation,increases the activity of antioxidant enzymes,which is finally manifested as the improvement effect on the learning and memory impairment of AD mice.Conclusion:CG combined with Don has a better effect on improving cognitive and behavioral deficits caused by D-galactose in AD mice than Don alone.The mechanism may be related to reducing inflammation via the NF-κB pathway,resisting oxidative damage and increasing acetylcholine levels.