Recent Advances of Bioactive Marine Natural Products in Drug Discovery

Marine natural products(MNPs)are valuable resources for drug development.To date,17 drugs from marine sources are in clinical use,and 33 pharmaceutical compounds are in clinical trials.Presently the success of drug development from the marine resources is higher than the industry average.It is a feasible strategy to conduct the discovery of druglead compounds based on marine chemical ecology by fully exploiting the pharmacological potential of marine chemical defense matters.In the search for bioactive MNPs,our group has constructed a biological resources library including more than 1500 strains of fungi.Focusing on the strategy of Blue Drug Library,we have discovered a series of novel MNPs with abundant biological functions.Highly efficient and scalable total synthesis of(+)-aniduquinolone A(44)and pesimquinolone I(48)have been completed,which will facilitate access to sufficient quantities of candidates for in vivo pharmacological and toxicological studies.As a nucleoprotein(NP)inhibitor,QLA(75)possesses significant anti-influenza A virus(IAV)activities both in vitro and in vivo.CHNQD-00803(76)is a potent and selective AMP-activated kinase(AMPK)activator that can effectively inhibit metabolic disorders and metabolic dysfunction-associated steatohepatitis(MASH)progression.Moreover,we identified two new candidate molecules with potent anti-hepatocellular carcinoma effects.Particularly,as a natural guanine-nucleotide exchange factors for ADP-ribosylation factor GTPases(Arf-GEFs)inhibitor prodrug,CHNQD-01255(78)is qualified to be developed as a targeted candidate anticancer drug,which may be promising to apply for cancer immunotherapy.Hence,it is evident that MNPs play an important role in drug development.

Prioritised identification of structural classes of natural products from higher plants in the expedition of antimalarial drug discovery

The emergence and spread of drug-recalcitrant Plasmodium falciparum parasites threaten to reverse the gains made in the fight against malaria.Urgent measures need to be taken to curb this impending challenge.The higher plant-derived sesquiterpene,quinoline alkaloids,and naphthoquinone natural product classes of compounds have previously served as phenomenal chemical scaffolds from which integral antimalarial drugs were developed.Historical successes serve as an inspiration for the continued investigation of plant-derived natural products compounds in search of novel molecular templates from which new antimalarial drugs could be developed.The aim of this study was to identify potential chemical scaffolds for malaria drug discovery following analysis of historical data on phytochemicals screened in vitro against P.falciparum.To identify these novel scaffolds,we queried an in-house manually curated database of plant-derived natural product compounds and their in vitro biological data.Natural products were assigned to different structural classes using NPClassifier.To identify the most promising chemical scaffolds,we then correlated natural compound class with bioactivity and other data,namely(i)potency,(ii)resistance index,(iii)selectivity index and(iv)physicochemical properties.We used an unbiased scoring system to rank the different natural product classes based on the assessment of their bioactivity data.From this analysis we identified the top-ranked natural product pathway as the alkaloids.The top three ranked super classes identified were(i)pseudoalkaloids,(ii)naphthalenes and(iii)tyrosine alkaloids and the top five ranked classes(i)quassinoids(of super class triterpenoids),(ii)steroidal alkaloids(of super class pseudoalkaloids)(iii)cycloeudesmane sesquiterpenoids(of super class triterpenoids)(iv)isoquinoline alkaloids(of super class tyrosine alkaloids)and(v)naphthoquinones(of super class naphthalenes).Launched chemical space of these identified classes of compounds was,by and large,distinct from that of‘legacy’antimalarial drugs.Our study was able to identify chemical scaffolds with acceptable biological properties that are structurally different from current and previously used antimalarial drugs.These molecules have the potential to be developed into new antimalarial drugs.

Natural products as a crucial source of anti-inflammatory drugs: recent trends and advancements

Natural active molecules are key sources of modern innovative drugs. Particularly, a great amount of natural active molecules have been reported to possess promising therapeutic effects on inflammatory diseases, including asthma, rheumatoid arthritis, hepatitis, enteritis, metabolic disorders and neurodegenerative diseases. However, these natural active molecules with various molecular structures usually exert anti-inflammatory effects through diversiform pharmacological mechanisms, which is necessary to be summarized systematically. In this review, we introduced the current major anti-inflammatory natural active molecules based on their chemical structures, and discussed their pharmacological mechanisms including anti-inflammatory molecular signaling pathways and potential target proteins, which providing a referential significance on the development of novel anti-inflammatory drugs, and also revealing new therapeutic strategies for inflammatory diseases.

Medical plant extracts and natural compounds with a hepatoprotective effect against damage caused by antitubercular drugs: A review

Drug-induced liver injury encompasses a spectrum of diseases ranging from mild biochemical abnormalities to acute liver failure; example of this scenery is hepatotoxicity caused by the first-line antituberculous drugs isoniazid, rifampin and pyrazinamide, which are basic for treatment of drug-sensible and drug-resistant tuberculosis. In the search for pharmacological alternatives to prevent liver damage, antitubercular drugs have been the subject of numerous studies and published reviews, a great majority of them carried out by Asian countries. At the same time, hepatoprotectors from plant source are now emerging as a possible alternative to counteract the toxic effects of these therapeutic agents. The present review aims to highlight the most recent studies on the subject, based information published in scientific databases such as Scopus and Pub Med.

Research progress on natural products against hepatocellular carcinoma

Hepatocellular carcinoma(HCC)remains a prevalent and challenging malignancy globally,characterized by its numerous causal factors and generally unfavorable prognosis.In the relentless pursuit of effective treatment modalities,natural products have emerged as a promising and relatively non-toxic alternative,garnering significant interest.The integration of natural products with contemporary medical research has yielded encouraging therapeutic outcomes in the management of HCC.This review offers a comprehensive overview of the causal factors underlying HCC,and the diverse treatment options available,and highlights the advancements made by natural products in anti-HCC research.Particularly,we provide an outline of the various types of natural products,their corresponding nomenclature,target molecules,and mechanisms of action that exhibit anti-HCC activities.Natural products are anticipated to play a pivotal role in future comprehensive treatment plans for liver cancer,potentially offering patients improved survival rates and an enhanced quality of life.

Rapid discovery of a novel “green” and natural GST inhibitor for sensitizing hepatocellular carcinoma to Cisplatin by visual screening strategy

Over-expression of glutathione S-transferase(GST)can promote Cisplatin resistance in hepatocellular carcinoma(HCC)treatment.Hence,inhibiting GST is an attractive strategy to improve Cisplatin sensitivity in HCC therapy.Although several synthesized GST inhibitors have been developed,the side effects and narrow spectrum for anticancer seriously limit their clinical application.Considering the abundance of natural compounds with anticancer activity,this study developed a rapid fluorescence technique to screen“green”natural GST inhibitors with high specificity.The fluorescence assay demonstrated that schisanlactone B(hereafter abbreviated as C1)isolated from Xue tong significantly down-regulated GST levels in Cisplatin-resistant HCC cells in vitro and in vivo.Importantly,C1 can selectively kill HCC cells from normal liver cells,effectively improving the therapeutic effect of Cisplatin on HCC mice by downregulating GST expression.Considering the high GST levels in HCC patients,this compound demonstrated the high potential for sensitizing HCC therapy in clinical practice by down-regulating GST levels.

The 4th Euro-Mediterranean Conference of Natural Products and Drug Discovery: Back to Mother Nature (BioNat-IV), Cairo/Sharm El-Sheikh, Egypt, March 3–7, 2015

The 4 th Euro-Mediterranean Conference of Natural Products and Drug Discovery: Back to Mother Nature (Bio Nat-IV) was recently (from March 3 rd through 7 th, 2015) convened in Cairo and Sharm El-Sheikh along the Red Sea coast of Egypt. Overall, the meeting provided a platform for scientists from different nations to discuss emerging ideas that focused on cell signaling in cancer;the pathogenesis of autoimmune diseases;the identification and use of natural products as well as novel drug delivery approaches for the treatment of cancer,arthritis, diabetes, tuberculosis, fungal infection, etc.;and untapped or unconventional sources for natural products. This fourth in a row conference tried to bridge the gap not only between basic research and clinical applications, but also between developed nations and developing countries. With the continuing success of these past meetings, the fifth EuroMediterranean Conference of Natural Products and Drug Discovery(BioNat-V) is slated to be in February 2017.

On resource survey of natural mineral drugs in eastern Jilin and their sustaining application

There are rich natural resources of natural mineral drugs in eastern Jilin Province. Systematic resource investigation can elevate fractional conversion of this area' s mineral drugs resources superiority. Research on natural mineral drugs of this area can upgrade the translation rate of resource superiority and accelerate the development of local medical industry, especially, it can provide scientific data for founding the strategic design of Chinese traditional medicine's trademark of Jilin Changbai Mountain. Since the resource of mineral drugs can not be regenerated, it must be exploited scientifically, utilized reasonably and protected effectively its sustaining application.

To Speed up the Development and Industrialization of Natural Drugs in China

1.The Current Situation Facing China's accession to the WTO,our pharmaceutical industries must prepare to meet extremely strong competition,because 97% of the synthetic medicines and antibiotics marketed in the country are copies of foreign products.

Progress in approved drugs from natural product resources

Natural products (NPs) have consistently played a pivotal role in pharmaceutical research, exerting profound impactson the treatment of human diseases. A significant proportion of approved molecular entity drugs are either directly derived from NPs orindirectly through modifications of NPs. This review presents an overview of NP drugs recently approved in China, the United States,and other countries, spanning various disease categories, including cancers, cardiovascular and cerebrovascular diseases, centralnervous system disorders, and infectious diseases. The article provides a succinct introduction to the origin, activity, development process, approval details, and mechanism of action of these NP drugs.

The Success of Natural Products in Drug Discovery

Drug discovery leading to robust and viable lead candidates’ remains a challenging scientific task, which is the transition from a screening hit to a drug candidate, requires expertise and experience. Natural products and their derivatives have been recognized for many years as a source of therapeutic agents and of structural diversity. However, in addition to their chemical structure diversity and their biodiversity, the development of new technologies has revolutionized the screening of natural products in discovering new drugs. Applying these technologies compensates for the inherent limitations of natural products and offers a unique opportunity to re-establish natural products as a major source for drug discovery. The present article attempts to describe the utilization of compounds derived from natural resources as drug candidates, with a focus on the success of these resources in the process of finding and discovering new and effective drug compounds, an approach commonly referred to as “natural product drug discovery”.

NOVEL pH-SENSITIVE DRUG DELIVERY SYSTEM BASED ON NATURAL POLYSACCHARIDE FOR DOXORUBICIN RELEASE

A novel pH-sensitive nanoparticle drug delivery system (DDS) derived fl om natural polysaccharide pullulan for doxorubicin (DOX) release was prepared.Pullulan was functionalized by successive carboxymethylization and amidation to introduce hydrazide groups.DOX was then grafted onto pullulan backbone through the pH-sensitive hydrazone bond to form a pullulan/DOX conjugate.This conjugate self-assembled to form nano-sized particles in aqueous solution as a result of the hydrophobic interaction of the DOX.Trans...

Anticancer drug screening of natural products:In vitro cytotoxicity assays,techniques,and challenges

Natural products include several diverse compounds that have been found to be effective against cancer.Discovering anticancer compounds in nature is a multistep and complex process that requires pre-clinical and clinical studies.Only a few of the available natural products are used to treat cancer since most of them have very high complexity and low bioavailability.Therefore,the process of anticancer drug discovery requires a straightforward and effective method to assess anticancer activity using in vitro assays.This review summarizes various cell-based assays and techniques used to measure cell viability,migration,and apoptosis,focusing in particular on the principles,mechanisms,advantages,and disadvantages of each assay to provide a preliminary platform for cancer drug discovery.

Exploring of drug leads from diversity-oriented Michael-acceptor library derived from natural products

A potential strategy for drug lead identification and in-active natural products re-discovery is elaborated.Starting from fifteen structurally diverse natural products,a focused library featured by Michael acceptors is constructed with IBX mediated oxidation.Biological assay on five tumor cell lines indicates that four Michael acceptors,8a,11a,12a,14a,are with improved cytotoxicity(3-10 folds more potent than the parent compounds),which merit further investigations.Further thiol-sensitive assay of the active hit 8a revealed that it was an irreversible Michael acceptor.The results suggest that the strategy is not only effective and relatively high discovery rate(28%),but also resource saving.

Marine natural product lepadin A as a novel inducer of immunogenic cell death via CD91-dependent pathway

Immunogenic Cell Death(ICD)represents a mechanism of enhancing T cell-driven response against tumor cells.The process is enabled by release of damage-associated molecular patterns(DAMPs)and cytokines by dying cells.Based on molecular studies and clinical marker assessment,ICD can be a new target for cancer chemotherapy hitherto restricted to a few conventional anticancer drugs.In view of the development of small molecules in targeted cancer therapy,we reported the preliminary evidence on the role of the natural product lepadin A(1)as a novel ICD inducer.Here we describe the ICD mechanism of lepadin A(1)by proving the translocation of the protein calreticulin(CRT)to the plasma membrane of human A2058 melanoma cells.CRT exposure is an ICD marker in clinical studies and was associated with the activation of the intrinsic apoptotic pathway in A2058 cells with lepadin A(1).After the treatment,the tumour cells acquired the ability to activate dendritic cells(DCs)with cytokine release and costimulatory molecule expression that is consistent with a phenotypic profile committed to priming T lymphocytes via a CD91-dependent mechanism.The effect of lepadin A(1)was dose-dependent and comparable to the response of the chemotherapy drug doxorubicin(2),a well-established ICD inducer.

Natural Products as Potential Lead Compounds for Drug Discovery Against SARS-CoV-2

For the past 2 years,the coronavirus responsible for the COVID-19 infection has become a world pandemic,ruining the lives and economies of several nations in the world.This has scaled up research on the virus and the resulting infection with the goal of developing new vaccines and therapies.Natural products are known to be a rich source of lead compounds for drug discovery,including against infectious diseases caused by microbes(viruses,bacteria and fungi).In this review article,we conducted a literature survey aimed at identifying natural products with inhibitory concentrations against the coronaviruses or their target proteins,which lie below 10μM.This led to the identification of 42 compounds belonging to the alkaloid,flavonoid,terpenoid,phenolic,xanthone and saponin classes.The cut off concentration of 10μM was to limit the study to the most potent chemical entities,which could be developed into therapies against the viral infection to make a contribution towards limiting the spread of the disease.

Antiviral Drugs(Synthetic Small Molecule Inhibitors and Nature Drugs)Against EV71 in Enteroviruses:Advances and Perspectives

Background:Enterovirus 71(EV71)is a major virus that causes hand-foot-mouth disease.In cases of infants and young children,EV71 infection has been associated with severe neurological disease and potentially fatal systemic complications.The sporadic outbreak worldwide is increasingly prevalent in the Asia-Pacific region,where it has become a major public health concern.Objective:No specific antiviral drugs are currently approved for the treatment of EV71 infection.The purpose of this study is to comprehensively review the research progress of anti-EV71 drugs(synthetic small molecule inhibitors and nature drugs)in the past twenty years,and further to promote the research and development of antiviral drugs against enterovirus infection.Methods:This study reviewed the drugs on anti EV71 in the past decades.The literature search in PubMed database was conducted for original studies and review articles on drugs against enterovirus 71.Related articles published in English were selected for study and discussion.Results:As reviewed in this paper,bioactive molecules include receptor analogues,protease inhibitors,natural drugs derived from traditional chinese medicine or natural medicine.These bioactive molecules have shown significant effectiveness in inhibiting the entry and replication of EV71 in vitro and in vivo experiments.Conclusion:This review demonstrated that the entry receptor of EV71 into host cells has been studied,and receptor drugs against enterovirus have been made some progress,but most receptor analogues have not been reported.Further research is needed in this area in the future.On the other hand,the protease inhibitors have always been a major aspect of anti-enterovirus research and can be developed as antiviral agents for clinical application.In terms of natural drugs,many monomers derived from traditional chinese medicine or natural medicine have good antiviral activity and little toxic and side effects on host cells,but in view of their multi-target properties,the mechanism of drug action needs to be further studied.

A recent update on development,synthesis methods,properties and application of natural products derived carbon dots

Natural resources are practically infinitely abundant in nature,which stimulates scientists to create new materials with inventive uses and minimal environmental impact.Due to the various benefits of natural carbon dots(NCDs)from them has received a lot of attention recently.Natural products-derived carbon dots have recently emerged as a highly promising class of nanomaterials,showcasing exceptional properties and eco-friendly nature,which make them appealing for diverse applications in various fields such as biomedical,environmental sensing and monitoring,energy storage and conversion,optoelectronics and photonics,agriculture,quantum computing,nanomedicine and cancer therapy.Characterization techniques such as Photoinduced electron transfer,Aggregation-Induced-Emission(AIE),Absorbance,Fluorescence in UV-Vis and NIR Regions play crucial roles in understanding the structural and optical properties of Carbon dots(CDs).The exceptional photoluminescence properties exhibited by CDs derived from natural products have paved the way for applications in tissue engineering,cancer treatment,bioimaging,sensing,drug delivery,photocatalysis,and promising remarkable advancements in these fields.In this review,we summarized the various synthesis methods,physical and optical properties,applications,challenges,future prospects of natural products-derived carbon dots etc.In this expanding sector,the difficulties and prospects for NCD-based materials research will also be explored.

本草经典理论体系之饮片炮制论

中医临床用药有2个最重要的特色:一是药材炮制成饮片后方能入药,中药的性、味、归经等功效属性均源自饮片;二是饮片需经临床医师辨证论治、复方配伍后使用,这样才能以君、臣、佐、使的和合之力发挥最佳疗效。炮制是形成性、味、归经等中药药性的重要阶段,也是中药临床应用的必经过程。炮制的自身发展也经历了从临床用药需求到药性形成需求的升华,从简单净制处理到水火共制成就药性的演变,从物理变化、化学变化到生物变化的递进,从产地粗加工到减毒增效、改性存效的精妙工艺传承。从炮制称谓演变开始,系统梳理炮制方法变迁、炮制目的演进、炮制工艺的传承,以期勾勒出本草经典中蕴含的中药饮片炮制科学理论。

基于天然多糖的刺激响应型药物控释系统研究进展

刺激响应型药物控释系统一般以天然多糖生物大分子或其衍生物作为载体,通过化学结合或物理吸附等方式负载药物分子。具有刺激响应功能的天然多糖生物大分子或其衍生物能够感知其所处环境的变化,并由于其物理或化学性质的变化而做出应激响应,因此可在不同环境或条件的刺激下,通过药物与载体之间化学键断裂或载体自身降解等方式将药物从载体中释放,从而实现药物的控制释放。结合课题组的研究工作,介绍了常用的刺激方式,包括单一刺激和多重刺激、外源性刺激和内源性刺激,为开发新型刺激响应型药物控释系统提供了思路。