Translational modeling-based evidence for enhanced efficacy of standard-of-care drugs in combination with anti-microRNA-155 in non-small-cell lung cancer.

Elevated microRNA-155 (miR-155) expression in non-small-cell lung cancer (NSCLC) promotes cisplatin resistance and negatively impacts treatment outcomes. However, miR-155 can also boost anti-tumor immunity by suppressing PD-L1 expression. We developed a multiscale mechanistic model, calibrated with in vivo data and then extrapolated to humans, to investigate the therapeutic effects of nanoparticle-delivered anti-miR-155 in NSCLC, alone or in combination with standard-of-care drugs. Model simulations and analyses of the clinical scenario revealed that monotherapy with anti-miR-155 at a dose of 2.5 mg/kg administered once every three weeks has substantial anti-cancer activity. It led to a median progression-free survival (PFS) of 6.7 months, which compared favorably to cisplatin and immune checkpoint inhibitors. Further, we explored the combinations of anti-miR-155 with standard-of-care drugs, and found strongly synergistic two- and three-drug combinations. A three-drug combination of anti-miR-155, cisplatin, and pembrolizumab resulted in a median PFS of 13.1 months, while a two-drug combination of anti-miR-155 and cisplatin resulted in a median PFS of 11.3 months, which emerged as a more practical option due to its simple design and cost-effectiveness. Our analyses also provided valuable insights into unfavorable dose ratios for drug combinations, highlighting the need for optimizing dose regimen to prevent antagonistic effects. Thus, this work bridges the gap between preclinical development and clinical translation of anti-miR-155 and unravels the potential of anti-miR-155 combination therapies in NSCLC.

In-Silico Identification of Novel Pharmacological Synergisms: The Trabectedin Case.

The in-silico strategy of identifying novel uses for already existing drugs, known as drug repositioning, has enhanced drug discovery. Previous studies have shown a positive correlation between expression changes induced by the anticancer agent trabectedin and those caused by irinotecan, a topoisomerase I inhibitor. Leveraging the availability of transcriptional datasets, we developed a general in-silico drug-repositioning approach that we applied to investigate novel trabectedin synergisms. We set a workflow allowing the identification of genes selectively modulated by a drug and possible novel drug interactions. To show its effectiveness, we selected trabectedin as a case-study drug. We retrieved eight transcriptional cancer datasets including controls and samples treated with trabectedin or its analog lurbinectedin. We compared gene signature associated with each dataset to the 476,251 signatures from the Connectivity Map database. The most significant connections referred to mitomycin-c, topoisomerase II inhibitors, a PKC inhibitor, a Chk1 inhibitor, an antifungal agent, and an antagonist of the glutamate receptor. Genes coherently modulated by the drugs were involved in cell cycle, PPARalpha, and Rho GTPases pathways. Our in-silico approach for drug synergism identification showed that trabectedin modulates specific pathways that are shared with other drugs, suggesting possible synergisms.

An Antiherpesviral Host-Directed Strategy Based on CDK7 Covalently Binding Drugs: Target-Selective, Picomolar-Dose, Cross-Virus Reactivity.

The repertoire of currently available antiviral drugs spans therapeutic applications against a number of important human pathogens distributed worldwide. These include cases of the pandemic severe acute respiratory coronavirus type 2 (SARS-CoV-2 or COVID-19), human immunodeficiency virus type 1 (HIV-1 or AIDS), and the pregnancy- and posttransplant-relevant human cytomegalovirus (HCMV). In almost all cases, approved therapies are based on direct-acting antivirals (DAAs), but their benefit, particularly in long-term applications, is often limited by the induction of viral drug resistance or side effects. These issues might be addressed by the additional use of host-directed antivirals (HDAs). As a strong input from long-term experiences with cancer therapies, host protein kinases may serve as HDA targets of mechanistically new antiviral drugs. The study demonstrates such a novel antiviral strategy by targeting the major virus-supportive host kinase CDK7. Importantly, this strategy focuses on highly selective, 3D structure-derived CDK7 inhibitors carrying a warhead moiety that mediates covalent target binding. In summary, the main experimental findings of this study are as follows: (1) the in vitro verification of CDK7 inhibition and selectivity that confirms the warhead covalent-binding principle (by CDK-specific kinase assays), (2) the highly pronounced antiviral efficacies of the hit compounds (in cultured cell-based infection models) with half-maximal effective concentrations that reach down to picomolar levels, (3) a particularly strong potency of compounds against strains and reporter-expressing recombinants of HCMV (using infection assays in primary human fibroblasts), (4) additional activity against further herpesviruses such as animal CMVs and VZV, (5) unique mechanistic properties that include an immediate block of HCMV replication directed early (determined by Western blot detection of viral marker proteins), (6) a substantial drug synergism in combination with MBV (measured by a Loewe additivity fixed-dose assay), and (7) a strong sensitivity of clinically relevant HCMV mutants carrying MBV or ganciclovir resistance markers. Combined, the data highlight the huge developmental potential of this host-directed antiviral targeting concept utilizing covalently binding CDK7 inhibitors.

Caracterização fitoquímica, avaliação dos efeitos sinérgicos e antibiofilmes dos extratos de Rosmarinus officinalis L. e Plinia cauliflora sobre microrganismos envolvidos na infecção endodôntica secundária / Phytochemical characterization, evaluation of the synergistic and antibiofilm effects of Rosmarinus officinalis L. and Plinia cauliflora extracts on microorganisms involved in secondary endodontic infection

Com o aumento de microrganismos resistentes nos canais radiculares, os estudos de extratos de plantas com ação antibacteriana têm aumentado visando terapias alternativas. O objetivo deste estudo foi avaliar os efeitos sinérgicos sobre Enterococcus faecalis, Enterococcus faecium, Candida albicans, Fusobacterium nucleatum e Porphyromonas gingivalis e a ação antibiofilme dos extratos hidroetanólicos de Rosmarinus officinalis L. (alecrim) e Plinia cauliflora (jabuticaba). Foram determinadas a Concentração Inibitória Mínima (CIM) e Concentração Microbicida Mínima (CMM) por microdiluição em caldo e Índice de Concentração Inibitória Fracionada e Índice de Concentração Microbicida Fracionada por microdiluição checkerboard. Posteriormente, a ação da concentração efetiva dos extratos foi avaliada sobre biofilmes formados em poços de placa de microtitulação. Os biofilmes foram expostos a dois diferentes períodos de tratamento com os extratos, por 5 min e 24 h, sendo n=10 para cada grupo experimental. Como controles foram utilizados solução salina 0,9% (C+) e hipoclorito de sódio 2,5% (C-), totalizando 5 grupos para cada microrganismo e cada tempo experimental. Em seguida, os biofilmes foram submetidos ao teste de MTT. Foram realizadas análises da atividade citotóxica dos extratos sobre as linhagens de queratinócitos humanos (HaCat) pelo teste de MTT. A análise estatística foi feita aplicando método ANOVA e teste de Dunn (significância de 5%). Ambos os extratos demonstraram fitocompostos fenólicos e flavonóides e possuem ação antioxidante. Os extratos apresentam ação antimicrobiana para as cepas estudadas e quando foram associados, apresentaram concentrações aditivas para cepa de E. faecalis. Em relação a propriedade antibiofilme, o extrato de alecrim apresentou boa redução da viabilidade microbiana de E. faecalis, com redução de 52% para o tempo de 5 min e de 40% para 24 h. Para as cepas de microrganismos anaeróbios, para a cepa de F. nucleatum, o extrato de jabuticaba reduziu em até 73% o biofilme. Para a cepa de P. gingivalis houve redução de até 41% para o extrato de jabuticaba e de até 57% para o extrato de alecrim. Quanto a citotoxicidade em HaCat, demonstrou que após tratamento com diferentes concentrações dos extratos, ambos apresentaram citotoxicidade estatisticamente semelhante ao hipoclorito de sódio 2,5%. Diante disso, pode-se concluir que ambos os extratos apresentam ação antioxidante e antimicrobiana em culturas planctônicas, exceto o extrato de jabuticaba para C. albicans. Quanto a associação dos extratos, não houve ação sinérgica, mas obteve-se resultado aditivo para cepa clínica de E. faecalis 2. A ação antibiofilme foi efetiva para as cepas de E. faecalis, F nucleatum e P. gingivalis. A citotoxicidade dos extratos apresentou semelhança estatística com o hipoclorito de sódio 2,5% para ambos. (AU)

With the increase in resistant microorganisms in root canals, studies of plant extracts with antibacterial action have increased aiming at alternative therapies. The objective of this study was to evaluate the synergistic effects on Enterococcus faecalis, Enterococcus faecium, Candida albicans, Fusobacterium nucleatum and Porphyromonas gingivalis and the antibiofilm action of hydroethanolic extracts of Rosmarinus officinalis L. (rosemary) and Plinia cauliflora (jabuticaba). The Minimum Inhibitory Concentration (MIC) and Minimum Microbicide Concentration (MCC) were determined by broth microdilution and the Fractional Inhibitory Concentration Index and Fractional Microbicide Concentration Index by checkerboard microdilution. Subsequently, the effect of the effective concentration of the extracts was evaluated on biofilms formed in microtiter plate wells. The biofilms were exposed to two different periods of treatment with the extracts, for 5 min and 24 h, with n=10 for each experimental group. As controls, 0.9% saline solution (C+) and 2.5% sodium hypochlorite (C-) were used, totaling 5 groups for each microorganism and each experimental time. Then, the biofilms were subjected to the MTT test. Analysis of the cytotoxic activity of the extracts on human keratinocyte lines (HaCat) was carried out using the MTT test. Statistical analysis was performed using the ANOVA method and Dunn's test (5% significance level). The results that both extracts demonstrated phenolic and flavonoid phytocompounds and have antioxidant action. The extracts have antimicrobial action for the strains studied and when they were combined, they presented additive concentrations only for the E. faecalis strain. Regarding the antibiofilm property, the rosemary extract showed a good reduction in the microbial viability of E. faecalis, with a reduction of 52% for 5 min and 40% for 24 h. For strains of anaerobic microorganisms, in contact with the F. nucleatum strain, the jabuticaba extract reduced biofilm by up to 73%. For the P. gingivalis strain, there was a reduction of up to 41% for the jabuticaba extract and up to 57% for the rosemary extract. As for cytotoxicity in HaCat, it was demonstrated that after treatment with different concentrations of extracts, both showed cytotoxicity statistically similar to 2.5% sodium hypochlorite. Given this, it can be concluded that both extracts have antioxidant and antimicrobial action in planktonic cultures, except the jabuticaba extract for C. albicans. Regarding the association of extracts, there was no synergistic action, but an additive result was obtained for the clinical strain of E. faecalis 2. The antibiofilm action was effective for the strains of E. faecalis, F nucleatum and P. gingivalis. The cytotoxicity of the extracts showed statistical similarity with 2.5% sodium hypochlorite for both.(AU)

Combined Treatment with Host-Directed and Anticytomegaloviral Kinase Inhibitors: Mechanisms, Synergisms and Drug Resistance Barriers.

Despite the availability of currently approved antiviral drugs, infections with human cytomegalovirus (HCMV) still cause clinically challenging, sometimes life-threatening situations. There is an urgent need for enhanced anti-HCMV drugs that offer improved efficacy, reduced dosages and options for long-term treatment without risk of the development of viral drug resistance. Recently, we reported the pronounced anti-HCMV efficacy of pharmacological inhibitors of cyclin-dependent kinases (CDKs), in particular, the potential of utilizing drug synergies upon combination treatment with inhibitors of host CDKs and the viral CDK-like kinase pUL97 (vCDK/pUL97). Here, we expand this finding by further assessing the in vitro synergistic antiviral interaction between vCDK and CDK inhibitors towards HCMV as well as non-human cytomegaloviruses. An extension of this synergy approach was achieved in vivo by using the recombinant MCMV-UL97/mouse model, confirming the high potential of combination treatment with the clinically approved vCDK inhibitor maribavir (MBV) and the developmental CDK7 inhibitor LDC4297. Moreover, mechanistic aspects of this synergistic drug combination were illustrated on the levels of intracellular viral protein transport and viral genome replication. The analysis of viral drug resistance did not reveal resistance formation in the case of MBV + LDC4297 combination treatment. Spanning various investigational levels, these new results strongly support our concept, employing the great potential of anti-HCMV synergistic drug treatment.

[Bone cement as a local antibiotic carrier]. / Knochenzement als lokaler Antibiotikaträger.

BACKGROUND: There is widespread consensus that adjuvant local use of antimicrobial agents in combination with their systemic administration can better prevent and treat implant-associated musculoskeletal infections. The advantage of local antibiotics lies in their particular pharmacokinetics with initially high antibiotic concentrations at the implant site with only low systemic uptake. AIM OF TREATMENT: The aim of local application is to protect the foreign bodies directly at the implantation site from bacterial colonization and biofilm formation (prophylaxis) and to support the eradication of an already established infection after surgical debridement (treatment). Since the observations of Prof. Buchholz, bone cement has been the most frequently used local carrier system. APPLICATION: In cases of infection, surgeons should ideally work together with microbiologists, infectiologists or clinical pharmacists to determine which anti-infective agents are indicated systemically for the patient and which ones are indicated locally with PMMA cement, based on the pathogen(s) and antibiograms. However, for the anti-infective agents administered with bone cement, there is still uncertainty about which agents can be added to this carrier material and at what concentrations. Accordingly, the authors of this review article not only summarize the rationale and evidence for local antibiotic use but also elaborate on the points that must be considered for admixing these agents to the cement.

WR1065 conjugated to thiol-PEG polymers as novel anticancer prodrugs: broad spectrum efficacy, synergism, and drug resistance reversal.

The lack of anticancer agents that overcome innate/acquired drug resistance is the single biggest barrier to achieving a durable complete response to cancer therapy. To address this issue, a new drug family was developed for intracellular delivery of the bioactive aminothiol WR1065 by conjugating it to discrete thiol-PEG polymers: 4-star-PEG-S-S-WR1065 (4SP65) delivers four WR1065s/molecule and m-PEG6-S-S-WR1065 (1LP65) delivers one. Infrequently, WR1065 has exhibited anticancer effects when delivered via the FDA-approved cytoprotectant amifostine, which provides one WR1065/molecule extracellularly. The relative anticancer effectiveness of 4SP65, 1LP65, and amifostine was evaluated in a panel of 15 human cancer cell lines derived from seven tissues. Additional experiments assessed the capacity of 4SP65 co-treatments to potentiate the anticancer effectiveness and overcome drug resistance to cisplatin, a chemotherapeutic, or gefitinib, a tyrosine kinase inhibitor (TKI) targeting oncogenic EGFR mutations. The CyQUANT®-NF proliferation assay was used to assess cell viability after 48-h drug treatments, with the National Cancer Institute COMPARE methodology employed to characterize dose-response metrics. In normal human epithelial cells, 4SP65 or 1LP65 enhanced or inhibited cell growth but was not cytotoxic. In cancer cell lines, 4SP65 and 1LP65 induced dose-dependent cytostasis and cytolysis achieving 99% cell death at drug concentrations of 11.2 ± 1.2 µM and 126 ± 15.8 µM, respectively. Amifostine had limited cytostatic effects in 11/14 cancer cell lines and no cytolytic effects. Binary pairs of 4SP65 plus cisplatin or gefitinib increased the efficacy of each partner drug and surmounted resistance to cytolysis by cisplatin and gefitinib in relevant cancer cell lines. 4SP65 and 1LP65 were significantly more effective against TP53-mutant than TP53-wild-type cell lines, consistent with WR1065-mediated reactivation of mutant p53. Thus, 4SP65 and 1LP65 represent a unique prodrug family for innovative applications as broad-spectrum anticancer agents that target p53 and synergize with a chemotherapeutic and an EGFR-TKI to prevent or overcome drug resistance.

Combination strategies to overcome drug resistance in FLT+ acute myeloid leukaemia.

BACKGROUND: Acute myeloid leukaemia (AML) remains difficult to treat despite the development of novel formulations and targeted therapies. Activating mutations in the FLT3 gene are common among patients and make the tumour susceptible to FLT3 inhibitors, but resistance to such inhibitors develops quickly. METHODS: We examined combination therapies aimed at FLT3+-AML, and studied the development of resistance using a newly developed protocol. Combinations of FLT3, CDK4/6 and PI3K inhibitors were tested for synergism. RESULTS: We show that AML cells express CDK4 and that the CDK4/6 inhibitors palbociclib and abemaciclib inhibit cellular growth. PI3K inhibitors were also effective in inhibiting the growth of AML cell lines that express FLT3-ITD. Whereas resistance to quizartinib develops quickly, the combinations overcome such resistance. CONCLUSIONS: This study suggests that a multi-targeted intervention involving a CDK4/6 inhibitor with a FLT3 inhibitor or a pan-PI3K inhibitor might be a valuable therapeutic strategy for AML to overcome drug resistance. Moreover, many patients cannot tolerate high doses of the drugs that were studied (quizartinib, palbociclib and PI3K inhibitors) for longer periods, and it is therefore of high significance that the drugs act synergistically and lower doses can be used.

Antibiotic Combination Therapy for Severe Scrub Typhus: Is It Necessary?

Scrub typhus can be adequately treated with doxycycline or azithromycin unless it is treated too late. Such cases present as severe scrub typhus, and their treatment remains a challenging problem. In this article, we briefly review the literature on the treatment of scrub typhus and the limitations of the combination of doxycycline and azithromycin. Several options are suggested for further study in the treatment of severe scrub typhus (such as encephalitis, myocarditis, and pneumonia), including dose escalation of doxycycline, the adjuvant use of steroids, the selective use of beta-lactam antibiotics, and the use of tigecycline.

Stratification of Tamoxifen Synergistic Combinations for the Treatment of ER+ Breast Cancer.

Breast cancer alone accounts for the majority of cancer deaths among women, with the most commonly diagnosed subtype being estrogen receptor positive (ER+). Survival has greatly improved for patients with ER+ breast cancer, due in part to the development of antiestrogen compounds, such as tamoxifen. While treatment of the primary disease is often successful, as many as 30% of patients will experience recurrence and metastasis, mainly due to developed endocrine therapy resistance. In this study, we discovered two tamoxifen combination therapies, with simeprevir and VX-680, that reduce the tumor burden in animal models of ER+ breast cancer more than either compound or tamoxifen alone. Additionally, these tamoxifen combinations reduced the expression of HER2, a hallmark of tamoxifen treatment, which can facilitate acquisition of a treatment-resistant phenotype. These combinations could provide clinical benefit by potentiating tamoxifen treatment in ER+ breast cancer.

Randomized controlled trial for anesthesia during gastroscopy: interactions between remimazolam and propofol in combination with sufentanil.

BACKGROUND: Remimazolam is a new short-duration anesthetic currently used for gastroscopy and can be mixed with propofol and potent opioids. AIM: The study aimed to investigate the synergistic interaction between remimazolam and propofol after sufentanil administration and to determine the appropriate dose ratios between remimazolam and propofol. METHOD: This study used a randomized controlled design. Patients scheduled for gastrointestinal endoscopy were included and randomized into five groups. The randomized block design was applied at a randomization ratio of 1:1. Patients in each group received sufentanil (0.1 µg/kg) and the calculated doses of remimazolam and propofol. Using the up and down method, the median effective dose (ED50) and the 95% confidence interval (CI) were determined based on whether the eyelash reflex disappeared in each treatment group. Isobolographic analysis was used to analyze the presence of drug interactions. The interaction coefficient and the dose ratio between remimazolam and propofol were calculated by algebraic analysis. Statistical analysis was performed using interval estimates and 95% CI for statistical attributes. RESULTS: Cross-sectional analysis of the isobologram showed a clinically significant synergistic effect between remimazolam and propofol. When 0.016, 0.032, and 0.047 mg/kg of remimazolam were combined with 0.477, 0.221, and 0.131 mg/kg of propofol, the interaction coefficients were 1.04, 1.21, and 1.06, respectively. The dose ratio of remimazolam to propofol was approximately 1:7. CONCLUSION: Remimazolam and propofol have synergistic clinical effects. A strong synergistic effect was observed when the remimazolam and propofol dose ratio was 1:7 (mg/kg). CLINICAL TRIAL: The study protocol was registered at the Chinese Clinical Trial Registry (ChiCTR2100052425).

In vitro synergistic interaction of colistin and other antimicrobials against intrinsic colistin-resistant Morganella morganii isolates.

Morganella morganii, a non-negligent opportunistic pathogen of the family Enterobacteriaceae, enlisted recently in the global priority pathogens by WHO for its swift propensity to acquire drug-resistant genes, engendering enhanced death rates. A combination of diverse antimicrobials could be recycled to overcome the ongoing acquisition of resistance mechanisms by M. morganii. Herein, we investigated the in vitro synergistic effect of colistin with meropenem, rifampicin, minocycline and linezolid against three intrinsic colistin-resistant M. morganii strains collected from critical departments of tertiary care hospitals. The strains were identified and tested for antimicrobial susceptibility by VITEK 2 automated system. The 16S rRNA sequencing was used to reconfirm the species identification. Minimum inhibitory concentrations (MICs) of colistin, meropenem, rifampicin, minocycline and linezolid were determined by the broth microdilution method. Synergistic interactions were studied by checkerboard and time-kill assay. The VITEK 2 identification and 16S rRNA sequencing confirmed that the strains were M. morganii. The automated antimicrobial susceptibility test revealed that all three isolates were multi-drug resistant. The checkerboard analysis demonstrated the synergy of all four combinations with FICI values ranging from 0.06 to 0.31 in all three isolates. These results suggest a potential role of meropenem as an adjuvant for treating M. morganii infections. The current work presented the first evidence of synergy between colistin and other antibiotics against M. morganii infection, which needs validation through in vitro and in vivo studies using a larger number of isolates. Supplementary Information: The online version contains supplementary material available at 10.1007/s13205-023-03551-w.

Antibacterial and antibiofilm efficacy of repurposing drug hexestrol against methicillin-resistant Staphylococcus aureus.

There has been an explosion in the prevalence of methicillin-resistant Staphylococcus aureus (MRSA) because of the indiscriminate use of antibiotics. In this study, we repurposed hexestrol (HXS) as an antibacterial agent to fight planktonic and biofilm-related MRSA infections. HXS is a nonsteroidal synthetic estrogen that targets estrogen receptors (ERα and ERß) and has been used as a hormonal antineoplastic agent. In our work, the minimum inhibitory concentrations (MICs) were determined using the antimicrobial susceptibility of MSSA and MRSA strains. Anti-biofilm activity was evaluated using biofilm inhibition and eradication assays. Biofilm-related genes were analyzed with or without HXS treatment using RTqPCR analysis of S. aureus. HXS was tested using the checkerboard dilution assay to identify antibiotics that may have synergistic effects. Measurement of ATP and detection of ATPase allowed the determination of bacterial energy metabolism. As shown in the results, HXS showed effective antimicrobial activity against S. aureus, including both type strains and clinical isolations, with MICs of 16 µg/mL. Sub-HXS strongly inhibited the adhesion of S. aureus. The content of extracellular polymeric substances (EPS) and the relative transcription levels of eno, sacC, clfA, pls and fnbpB were reduced after HXS treatment. HXS showed antibacterial effects against S. aureus and synergistic activity with aminoglycosides by directly interfering with cellular energy metabolism. HXS inhibits adhesion and biofilm formation and eradicates biofilms formed by MRSA by reducing the expression of related genes. Furthermore, HXS increases the susceptibility of aminoglycosides against MRSA. In conclusion, HXS is a repurposed drug that may be a promising therapeutic option for MRSA infection.

Combination of Conventional Drugs with Biocompounds Derived from Cinnamic Acid: A Promising Option for Breast Cancer Therapy.

Despite the options available for breast cancer (BC) therapy, several adverse effects and resistance limit the success of the treatment. Furthermore, the use of a single drug is associated with a high failure rate. We investigated through a systematic review the in vitro effects of the combination between conventional drugs and bioactive compounds derived from cinnamic acid in BC treatment. The information was acquired from the following databases: PubMed, Web of Science, Embase, Scopus, Lilacs and Cochrane library. We focused on "Cinnamates", "Drug Combinations" and "Breast neoplasms" for publications dating between January 2012 and December 2022, based on the PRISMA statement. The references of the articles were carefully reviewed. Finally, nine eligible studies were included. The majority of these studies were performed using MCF-7, MDA-MB-231, MDA-MB-468 and BT-20 cell lines and the combination between cisplatin, paclitaxel, doxorubicin, tamoxifen, dactolisib and veliparib, with caffeic acid phenethyl ester, eugenol, 3-caffeoylquinic acid, salvianolic acid A, ferulic acid, caffeic acid, rosmarinic acid and ursolic acid. The combination improved overall conventional drug effects, with increased cytotoxicity, antimigratory effect and reversing resistance. Combining conventional drugs with bioactive compounds derived from cinnamic acid could emerge as a privileged scaffold for establishing new treatment options for different BC types.

Half-Sandwich Ruthenium Arene Complexes Bearing Clinically Approved Drugs as Ligands: The Importance of Metal-Drug Synergism in Metallodrug Design.

A novel strategy in metallodrug discovery today is incorporating clinically approved drugs into metal complexes as coordinating ligands. Using this strategy, various drugs have been repurposed to prepare organometallic complexes to overcome the resistance of drugs and to design promising alternatives to currently available metal-based drugs. Notably, the combination of organoruthenium moiety and clinical drug in a single molecule has been shown, in some instances, to enhance pharmacological activity and reduce toxicity in comparison to the parent drug. Thus, for the past two decades, there has been increasing interest in exploiting metal-drug synergism to develop multifunctional organoruthenium drug candidates. Herein, we summarized the recent reports of rationally designed half-sandwich Ru(arene) complexes containing different FDA-approved drugs. This review also focuses on the mode of coordination of drugs, ligand-exchange kinetics, mechanism of action, and structure-activity relationship of organoruthenated complexes containing drugs. We hope this discussion may serve to shed light on future developments in ruthenium-based metallopharmaceuticals.

Combination Treatment of a Phytochemical and a Histone Demethylase Inhibitor-A Novel Approach towards Targeting TGFß-Induced EMT, Invasion, and Migration in Prostate Cancer.

Minimizing side effects, overcoming cancer drug resistance, and preventing metastasis of cancer cells are of growing interest in current cancer therapeutics. Phytochemicals are being researched in depth as they are protective to normal cells and have fewer side effects. Hesperetin is a citrus bioflavonoid known to inhibit TGFß-induced epithelial-to-mesenchymal transition (EMT), migration, and invasion of prostate cancer cells. Targeting epigenetic modifications that cause cancer is another class of upcoming therapeutics, as these changes are reversible. Global H3K27me3 levels have been found to be reduced in invasive prostate adenocarcinomas. Combining a demethylase inhibitor and a known anti-cancer phytochemical is a unique approach to targeting cancer to attain the aforementioned objectives. In the current study, we used an H3K27 demethylase (JMJD3/KDM6B) inhibitor to study its effects on TGFß-induced EMT in prostate cancer cells. We then gave a combined hesperetin and GSK-J4 treatment to the PC-3 and LNCaP cells. There was a dose-dependent increase in cytotoxicity and inhibition of TGFß-induced migration and invasion of prostate cancer cells after GSK-J4 treatment. GSK-J4 not only induced trimethylation of H3K27 but also induced the trimethylation of H3K4. Surprisingly, there was a reduction in the H3K9me3 levels. GSK-J4 alone and a combination of hesperetin and GSK-J4 treatment effectively inhibit the important hallmarks of cancer, such as cell proliferation, migration, and invasion, by altering the epigenetic landscape of cancer cells.

Mutual Prodrugs - Codrugs.

This review encapsulates an extensive variety of substances identified as mutual prodrugs or codrugs, wherein two, or sometimes three, biologically active moieties are linked using an assortment of metabolically unstable bridging entities. Following the administration of the mutual prodrugs, these undergo a bridge cleavage releasing the active molecules, which then elicit their respective biological effects. In some cases, the released drugs act synergistically, other times the biological activity of only one of the drugs is elicited, and in such cases, the accompanying drug serves only as a carrier, which may have an affinity to the desired receptor. The most promising results are commonly observed when the two released drugs are efficacious at similar concentrations and particularly when the two drugs are effective against similar diseases. For instance, the best results are observed, when two analgesics, two anticancer agents, two drugs for the treatment of cardiac conditions, etc., are the substances comprising the codrug. Mutual prodrugs/ codrugs described herein have been reported, primarily since the year 2000, as potential drugs for use against a plethora of diseases including pain, inflammation, cancer, bacterial infections, sickle cell anemia, Alzheimer's disease, and others.

Anticancer and chemosensitizing activities of stilbenoids from three orchid species.

Recently, we have isolated and identified several bioactive flavonoids and stilbenoids with potential anticancer activity from Thai orchids. In this study, we further investigated the cytotoxic and chemosensitizing activities of these phytochemicals (namely, pinocembrin, cardamonin, isalpinin, galangin, pinosylvin monomethyl ether, 2,3'-dihydroxy-5'-methoxystilbene, (E)-2,5'-dihydroxy-2'-(4-hydroxybenzyl)-3'-methoxystilbene, 2,3-dihydroxy-3',5'-dimethoxystilbene, 2,3'-dihydroxy-5,5'-dimethoxystilbene, 3,4'-dihydroxy-5-methoxystilbene and batatasin III) against breast cancer MCF7 cells and its two multidrug resistant (MDR) sublines (MCF7/DOX and MCF7/MX). Cytotoxicity was determined with MTT assay for the estimation of the half maximal cytotoxic concentrations (IC50). Effects of the test compounds on activities of efflux transporters (BCRP, P-gp, MRP1, and MRP2) were evaluated with substrate accumulation assays using fluorometry and flow cytometry analysis. Out of these 11 test compounds, the stilbene pinosylvin monomethyl ether displayed its cytotoxicity specifically toward MCF7 cells (IC50 = 6.2 ± 1.2 µM, 72-h incubation) with 4.96 folds higher than normal fibroblast. Its potency decreased in MCF7/DOX and MCF7/MX cells by 3.94 and 7.38 folds, respectively. Our transporter assay indicated that this stilbene significantly reduced the activities of P-gp, MRP1, and MRP2, but not BCRP. After 48-h co-incubation, this stilbene (at 2 µM) synergistically increased doxorubicin- and mitoxantrone-mediated cytotoxicity in MCF7, MCF7/DOX, and MCF7/MX cells potentially by increasing the intracellular level of cytotoxic drug. Pinosylvin monomethyl ether could sensitize breast cancer cells to chemotherapy and overcome MDR, in part, via the inhibition of drug efflux transporters.

Clinical effects of Jiakang Pingxiao prescription combined with methiimidazole on hyperthyroidism / 中国基层医药

Objective:To investigate the clinical effects of Jiakang Pingxiao prescription combined with methiimidazole on hyperthyroidism. Methods:A total of 100 patients with hyperthyroidism admitted to Shanxian Central Hospital from February 2018 to January 2021 were included in this study. They were randomly divided into a study group and a control group, with 50 patients in each group. The control group was treated with methiimidazole, and the study group was treated with Jiakang Pingxiao prescription combined with methiimidazole. Thyroid function, serum levels of osteocalcin (OCN), β-CTx, hypersensitive C-reactive protein, and interleukin-6 (IL-6) were compared between the two groups. Results:After treatment, serum levels of thyroid stimulating hormone (TSH), free triiodothyronine (FT3), free thyroxine (FT4) in the study group were (3.10 ± 1.36) mU/L, (5.76 ± 1.25) pmol/L, (15.22 ± 1.95) pmol/L, respectively, which were significantly lower than (4.88 ± 1.47) mU/L, (7.13 ± 1.32) pmol/L, (19.07 ± 2.02) pmol/L in the control group ( t = 5.27, 4.71, 6.29, all P < 0.05). Serum OCN, β-CTx, hS-CRP, and IL-6 in the study group were (17.36 ± 2.62) μg/L, (0.32 ± 0.04) μg/L, (4.07 ± 0.86) mg/L, and (1.38 ± 0.21) pg/L, respectively, which were significantly lower than (26.05 ± 2.88) μg/L, (0.51 ± 0.09) μg/L, (6.23 ± 0.91) mg/L, (1.89 ± 0.28) pg/L in the control group ( t = 12.37, 10.40, 7.39, 8.57, all P < 0.05). The incidence of adverse reactions in the study group was significantly lower than that in the control group [6.00% (3/50) vs. 12.00% (3/50), χ2 = 14.78, P < 0.05). Conclusion:Jikang Pingxiao prescription combined with methiimidazole can effectively reduce the inflammatory responses in patients with hyperthyroidism, inhibit the expression of OCN and β-CTX in the serum, and improve thyroid function. The combined method is scientific and reasonable, and is suitable for clinical application. It has good therapeutic effects on hyperthyroidism and is worthy of clinical promotion.

Synergistic antimicrobial potential of EGCG and fosfomycin against biofilms associated with endodontic infections

Abstract Objective This study aimed to evaluate the cytotoxicity and synergistic effect of epigallocatechin gallate (EGCG) and fosfomycin (FOSFO) on biofilms of oral bacteria associated with endodontic infections. Methodology This study determined minimum inhibitory and bactericidal concentration (MIC/MBC) and fractionated inhibitory concentration (FIC) of EGCG and FOSFO against Enterococcus faecalis, Actinomyces israelii, Streptococcus mutans, and Fusobacterium nucleatum. Monospecies and multispecies biofilms with those bacteria formed in polystyrene microplates and in radicular dentin blocks of bovine teeth were treated with the compounds and control chlorhexidine (CHX) and evaluated by bacterial counts and microscopy analysis. Toxicity effect of the compounds was determined on fibroblasts culture by methyl tetrazolium assays. Results The combination of EGCG + FOSFO demonstrated synergism against all bacterial species, with an FIC index ranging from 0.35 to 0.5. At the MIC/FIC concentrations, EGCG, FOSFO, and EGCG+FOSFO were not toxic to fibroblasts. EGCG+FOSFO significantly reduced monospecies biofilms of E. faecalis and A. israelli, whereas S. mutans and F. nucleatum biofilms were eliminated by all compounds. Scanning electron microscopy of multispecies biofilms treated with EGCG, EGCG+FOSFO, and CHX at 100x MIC showed evident biofilm disorganization and substantial reduction of extracellular matrix. Confocal microscopy observed a significant reduction of multispecies biofilms formed in dentin tubules with 84.85%, 78.49%, and 50.6% of dead cells for EGCG+FOSFO, EGCG, and CHX at 100x MIC, respectively. Conclusion EGCG and fosfomycin showed a synergistic effect against biofilms of oral pathogens related to root canal infections without causing cytotoxicity.