ABSTRACT
Abstract Due to the severe side effects revealed by most of the currently used antidiabetic medicines, search for finding new and safe drugs to manage diabetes is continued. Naphthoquinones possessing strong antioxidant properties have been employed as candidates for diabetes therapy. Present study is aimed at finding the antioxidant and hypoglycaemic potential of some novel derivatives of 2-phenylamino-1,4-naphthoquinones (PAN) including chloro, nitro, methyl and bromo (5a-d) derivatives synthesized by single pot experiment. Product crystals were purified by TLC and characterized by FT-IR. The antioxidant potential of the compounds was assayed through DPPH radical scavenging and reducing power activities noted as UV-vis. absorbance. The DPPH assay has showed the powerful antioxidant activity of nitro and bromo derivatives, while the nitro derivative showed the significant reduction potential towards FRAP assay. Hypoglycaemic potential of the compounds was studied in rat animal model. All synthesized compounds revealed better hypoglycaemic activity; however, the chloro-derivative exhibited the more potent hypoglycaemic activity showing about 43% reduction in the mean blood glucose levels of the treated animals. As the bioreduction of naphthoquinones may be influenced by changing its redox properties, it has been noticed that the e-donating resonance effect (+R) of chloro group has shown the significant effects on biological activity through stabalization of its imine form which limits the potential of generation of free radicals during bioreduction of quinones and thus has been proposed as the reason of its hypoglycaemic activity. Future studies employing the properties of e-donating groups of PAN may optimize the drug-receptor interaction for better drug designing and drug development strategies against diabetes and also for the clinical trials.
Resumo Em razão dos graves efeitos colaterais causados pela maioria dos medicamentos antidiabéticos atualmente utilizados, continua a busca por novos medicamentos seguros para o controle do diabetes. As naftoquinonas, que possuem fortes propriedades antioxidantes, têm sido empregadas como candidatas à terapia do diabetes. O presente estudo visa encontrar o potencial antioxidante e hipoglicemiante de alguns novos derivados de 2-fenilamino-1,4-naftoquinonas (PAN), incluindo derivados de cloro, nitro, metil e bromo (5a-d) sintetizados por experimento em pote único. Os cristais do produto foram purificados por TLC e caracterizados por FT-IR. O potencial antioxidante dos compostos foi testado por meio de atividades de sequestro de radicais DPPH e redução de energia observada como absorção no UV-vis. O ensaio DPPH mostrou a poderosa atividade antioxidante dos derivados nitro e bromo, enquanto o derivado nitro mostrou o potencial de redução significativo para o ensaio FRAP. O potencial hipoglicêmico dos compostos foi estudado em modelo animal de rato. Todos os compostos sintetizados revelaram melhor atividade hipoglicemiante; no entanto, o derivado cloro apresentou atividade hipoglicêmica mais potente, com redução de 43% nos níveis médios de glicose no sangue dos animais tratados. Como a biorredução de naftoquinonas pode ser influenciada pela alteração de suas propriedades redox, notou-se que o efeito da doação eletrônica por ressonância (+R) do grupo cloro tem sido significativo na atividade biológica por meio da estabilização de sua forma imina, que limita o potencial de geração de radicais livres durante a biorredução de quinonas, e, portanto, tem sido proposto como a razão de sua atividade hipoglicemiante. Estudos futuros empregando as propriedades de grupos de doação eletrônica de PAN podem otimizar a interação droga-receptor para melhor planejamento de medicamentos e estratégias de desenvolvimento de medicamentos contra o diabetes e também para os ensaios clínicos.
ABSTRACT
Due to the severe side effects revealed by most of the currently used antidiabetic medicines, search for finding new and safe drugs to manage diabetes is continued. Naphthoquinones possessing strong antioxidant properties have been employed as candidates for diabetes therapy. Present study is aimed at finding the antioxidant and hypoglycaemic potential of some novel derivatives of 2-phenylamino-1,4-naphthoquinones (PAN) including chloro, nitro, methyl and bromo (5a-d) derivatives synthesized by single pot experiment. Product crystals were purified by TLC and characterized by FT-IR. The antioxidant potential of the compounds was assayed through DPPH radical scavenging and reducing power activities noted as UV-vis. absorbance. The DPPH assay has showed the powerful antioxidant activity of nitro and bromo derivatives, while the nitro derivative showed the significant reduction potential towards FRAP assay. Hypoglycaemic potential of the compounds was studied in rat animal model. All synthesized compounds revealed better hypoglycaemic activity; however, the chloro-derivative exhibited the more potent hypoglycaemic activity showing about 43% reduction in the mean blood glucose levels of the treated animals. As the bioreduction of naphthoquinones may be influenced by changing its redox properties, it has been noticed that the e-donating resonance effect (+R) of 'chloro' group has shown the significant effects on biological activity through stabalization of its imine form which limits the potential of generation of free radicals during bioreduction of quinones and thus has been proposed as the reason of its hypoglycaemic activity. Future studies employing the properties of e-donating groups of PAN may optimize the drug-receptor interaction for better drug designing and drug development strategies against diabetes and also for the clinical trials.
Em razão dos graves efeitos colaterais causados pela maioria dos medicamentos antidiabéticos atualmente utilizados, continua a busca por novos medicamentos seguros para o controle do diabetes. As naftoquinonas, que possuem fortes propriedades antioxidantes, têm sido empregadas como candidatas à terapia do diabetes. O presente estudo visa encontrar o potencial antioxidante e hipoglicemiante de alguns novos derivados de 2-fenilamino-1,4-naftoquinonas (PAN), incluindo derivados de cloro, nitro, metil e bromo (5a-d) sintetizados por experimento em pote único. Os cristais do produto foram purificados por TLC e caracterizados por FT-IR. O potencial antioxidante dos compostos foi testado por meio de atividades de sequestro de radicais DPPH e redução de energia observada como absorção no UV-vis. O ensaio DPPH mostrou a poderosa atividade antioxidante dos derivados nitro e bromo, enquanto o derivado nitro mostrou o potencial de redução significativo para o ensaio FRAP. O potencial hipoglicêmico dos compostos foi estudado em modelo animal de rato. Todos os compostos sintetizados revelaram melhor atividade hipoglicemiante; no entanto, o derivado cloro apresentou atividade hipoglicêmica mais potente, com redução de 43% nos níveis médios de glicose no sangue dos animais tratados. Como a biorredução de naftoquinonas pode ser influenciada pela alteração de suas propriedades redox, notou-se que o efeito da doação eletrônica por ressonância (+R) do grupo "cloro" tem sido significativo na atividade biológica por meio da estabilização de sua forma imina, que limita o potencial de geração de radicais livres durante a biorredução de quinonas, e, portanto, tem sido proposto como a razão de sua atividade hipoglicemiante. Estudos futuros empregando as propriedades de grupos de doação eletrônica de PAN podem otimizar a interação droga-receptor para melhor planejamento de medicamentos e estratégias de desenvolvimento de medicamentos contra o diabetes e também para os ensaios clínicos.
Subject(s)
Rats , Models, Animal , Diabetes Mellitus , Drug Development , Hypoglycemic Agents , AntioxidantsABSTRACT
ABSTRACT Synthetic opioids have played a significant role in the current opioid crisis in the United States (U.S.) and Canada and are a matter of concern worldwide. New psychoactive opioids (NPOs) are classified in the internationally recognized new psychoactive substances (NPSs) category. This group comprises compounds that may have been synthesized decades ago but appeared only recently in the illicit drug market. Such is the case of fentanyl, fentanyl analogs, and non-fentanyl opioids. Most NPOs have effects similar to morphine, including euphoria and analgesia, and can produce fatal respiratory depression. Here, we present an overview of the systemic and molecular effects of main NPOs, their classification, and their pharmacological properties. We first review the fentanyl group of NPOs, including the four compounds of clinical use (fentanyl, alfentanil, sufentanil, and remifentanil) and the veterinary drug carfentanil. We also provide essential information on non-medical fentanyl analogs and other synthetic opioids such as brorphine, etonitazene, and MT-45, used as adulterants in commonly misused drugs. This paper also summarizes the scarce literature on the use of NPOs in Mexico. It concludes with a brief review of the challenges to prevention and treatment posed by NPOs and some recommendations to face them.
ABSTRACT
Después de las enfermedades cardiovasculares, el cáncer, una patología no transmisible, ha sido considerado como la segunda causa de muertes cada año a nivel global y como la barrera más importante para aumentar la esperanza de vida en el siglo 21. Se han alcanzado avances de gran relevancia en su prevención y tratamiento; sin embargo, existe aún un largo camino por recorrer para alcanzar un tratamiento efectivo para cada tipo de cáncer. En este trabajo se describen enfoques de reposicionamiento y síntesis de moléculas híbridas con potencial actividad antineoplásica. Para obtener el al-dehído intermediario clave, se empleó la metodología de oxidación de Dess-Martin, que fue acoplado con las cetonas correspondientes usando LDA; se generó así una mezcla racémica para cada uno de los compuestos híbridos propuestos. La actividad antiproliferativa in vitro de los compuestos finales se evaluó frente a ocho líneas celulares derivadas de tumores sólidos humanos, y cuatro líneas celulares no cancerosas. El compuesto 11d resulto ser el más efectivo y con mayor índice de seguridad. Los resultados sugirieron que estos compuestos podrían bloquear el ciclo celular e inducir la apop-tosis y la muerte en las células CCRF-CEM de forma dependiente de la dosis in vitro.
After cardiovascular diseases, cancer, a non-communicable pathology, has been considered the second cause of death each year globally and as the most important barrier to increasing life expectancy in the 21st century. Advances of great relevance have been made in its prevention and treatment, however, there is still a long way to go to achieve an effective treatment for each type of cancer. This paper describes approaches to reposition and synthesis of hybrid molecules with potential antineoplastic activity. To obtain the key intermediate aldehyde, the Dess-Martin oxidation methodology was used, which was coupled with the corresponding ketones using LDA. The final hybrid compounds were obtained as a racemic mixture. The in vitro antiproli-ferative activity of the final compounds was evaluated against eight cell lines derived from human solid tumors, and four non-cancerous cell lines. The compound 11d turned out to be the most effective and with the highest safety index. The results suggested that these compounds could block the cell cycle and induce apoptosis and death in CCRF-CEM cells in a dose-dependent manner in vitro.
Depois das doenças cardiovasculares, o câncer, uma patologia não transmissível, tem sido considerado como a segunda causa de mortes a cada ano em todo o mundo e como a barreira mais importante para o aumento da expectativa de vida no século 21. Avanços de grande relevância têm sido feitos na sua prevenção e tratamento, no entanto, ainda há um longo caminho a percorrer para alcançar um tratamento eficaz para cada tipo de câncer. Este artigo descreve abordagens para o reposicionamento e síntese de moléculas híbridas com potencial atividade antineoplásica. Para a obtenção do aldeído intermediário chave, foi utilizada a metodologia de oxidação de Dess-Martin, que foi acoplada com as cetonas correspondentes usando LDA. Os compostos híbridos finais foram obtidos como uma mistura racêmica. A atividade antiproliferativa in vitro dos compostos finais foi avaliada contra oito linhagens celulares derivadas de tumores sólidos humanos e quatro linhagens celulares não cancerosas. O composto 11d revelou-se o mais eficaz e com o maior índice de segurança. Os resultados sugeriram que estes compostos poderiam bloquear o ciclo celular e induzir apoptose e morte em células CCRF-CEM de forma dose-de-pendente in vitro.
ABSTRACT
The purpose of this study is to provide a summary of the various pyrazole moieties' pharmacological actions. Pyrazole is a well-known and essential nitrogen-containing 5-membered heterocyclic compound, and different techniques for synthesis have been developed. Pyrazole, also known chemically as 1, 2-diazole, has become a prominent subject due to its numerous applications. Numerous pyrazole derivatives have been discovered to have a wide range of biological functions, which has fueled study in this area. Pyrazoles and their variants are among the most powerful groups of chemicals, with anti-bacterial, anti-convulsant, analgesic, anti-microbial, anti-inflammatory, anti-diabetic, sedative, anti- rheumatic, anticancer, and anti-tubercular properties. The goal of this study was to compile literary work on pyrazole for its different pharmacological activities, as well as to report on new efforts made on this moiety.
ABSTRACT
Sodium dichloroacetate (DCA) is a small molecule drug usually administered orally. It has therapeutic effects against several diseases, such as metabolic syndrome, cardiovascular and cerebrovascular diseases, and several solid tumors. In this review, the research progresses of DCA in mechanism of action, pharmacological action and toxicological studies were summarized from the recent literatures on the pharmacological actions of DCA.
ABSTRACT
On December 22,2021,the United States Food and Drug Administration approved the first main protease inhibitor,i.e.,oral antiviral nirmatrelvir(PF-07321332)/ritonavir(Paxlovid),for the treatment of early severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)infection.Nirmatrelvir inhibits SARS-CoV-2 infection,but high doses or long-term treatment may cause embryonic developmental toxicity and changes in host gene expression.The chiral structure of nirmatrelvir plays a key role in its antiviral activity.Ritonavir boosts the efficacy of nirmatrelvir by inactivating cytochrome P450 3A4 expression and occupying the plasma protein binding sites.Multidrug resistance protein 1 inhibitors may increase the efficacy of nirmatrelvir.However,Paxlovid has many contraindications.Some patients treated with Paxlovid experience a second round of coronavirus disease 2019(COVID-19)symptoms soon after re-covery.Interestingly,the antiviral activity of nirmatrelvir metabolites,such as compounds 12-18,is similar to or higher than that of nirmatrelvir.Herein,we review the advances and challenges in using nirmatrelvir and its derivatives with the aim of providing knowledge for drug developers and physicians in the fight against COVID-19.
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Malignant tumors, with the increasing crude morbidity and mortality year by year, have become the major diseases threatening human health. The conventional therapeutic drugs against tumors have serious adverse reactions, which can cause a heavy burden on patients. The active components of Chinese medicine can effectively inhibit tumor growth, improve the quality of life of patients, and have few toxic and side effects. Alkaloids of Chinese medicine are natural organic compounds widely existing in a variety of Chinese herbal medicines. In recent years, they have attracted more and more attention because of their anti-tumor effect. The anti-tumor mechanisms of alkaloids of Chinese medicine mainly include the induction of apoptosis, inhibition of tumor cell migration and invasion, suppression of proliferation, induction of autophagy of tumor cells, cell cycle arrest, inhibition of tumor angiogenesis, regulation of microRNA, and modulation of immunity. In addition, Chinese medicine alkaloids can also reverse tumor drug resistance and reduce the stemness of tumor stem cells. Alkaloids of Chinese medicine can regulate the phosphatidylinositol 3-kinase/protein kinase B (PI3K/Akt), c-Jun N-terminal kinase (JNK), p38 mitogen-activated protein kinase (p38 MAPK), mammalian target of rapamycin (mTOR), Notch, Hedgehog, Wnt/β-catenin, and other signaling pathways to participate in the processes of tumor proliferation, invasion and metastasis, autophagy and apoptosis, and affect the occurrence and development of tumors in multiple links and ways. The derivatives and nano-preparations of alkaloids can improve the solubility, utilization, and anti-tumor activity of alkaloids, bringing a broader prospect for the clinical application of alkaloids. This review summarized the recent anti-tumor research on alkaloids, their representative derivatives, and nano-preparations to provide references for the in-depth research on the anti-tumor effect of alkaloids.
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Cryptotanshinone is one of the effective components of traditional Chinese medicine salvia miltiorrhiza which shows good activities against a variety of tumors. Its anti-tumor effects include inhibition of tumor cell proliferation, induction of cell apoptosis, inhibition of cell migration and invasion, regulation of immune function and reversal of drug resistance. The direct anti-tumor targets include signal transducer and activator of transcription 3 (STAT3), tyrosine protein phosphatase SHP2, DNA topoisomerase 2, and other mechanisms of action include the induction of reactive oxygen species (ROS) production, regulation of estrogen and androgen receptor signaling, and inhibition of PI3K/AKT signaling pathway. In addition, many cryptotanshinone derivatives have been designed and synthesized to study the antitumor effects. The research progress of the antitumor activity of cryptotanshinone and its derivatives were reviewed in this paper to give references to the anti-tumor drug development of cryptotanshinone and its derivatives.
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Cancer is the second leading cause of mortality globally which remains a continuing threat to human health today. Drug insensitivity and resistance are critical hurdles in cancer treatment; therefore, the development of new entities targeting malignant cells is considered a high priority. Targeted therapy is the cornerstone of precision medicine. The synthesis of benzimidazole has garnered the attention of medicinal chemists and biologists due to its remarkable medicinal and pharmacological properties. Benzimidazole has a heterocyclic pharmacophore, which is an essential scaffold in drug and pharmaceutical development. Multiple studies have demonstrated the bioactivities of benzimidazole and its derivatives as potential anticancer therapeutics, either through targeting specific molecules or non-gene-specific strategies. This review provides an update on the mechanism of actions of various benzimidazole derivatives and the structure‒activity relationship from conventional anticancer to precision healthcare and from bench to clinics.
ABSTRACT
Neoadjuvant chemotherapy has become an indispensable weapon against high-risk resectable cancers, which benefits from tumor downstaging. However, the utility of chemotherapeutics alone as a neoadjuvant agent is incapable of generating durable therapeutic benefits to prevent postsurgical tumor metastasis and recurrence. Herein, a tactical nanomissile (TALE), equipped with a guidance system (PD-L1 monoclonal antibody), ammunition (mitoxantrone, Mit), and projectile bodies (tertiary amines modified azobenzene derivatives), is designed as a neoadjuvant chemo-immunotherapy setting, which aims at targeting tumor cells, and fast-releasing Mit owing to the intracellular azoreductase, thereby inducing immunogenic tumor cells death, and forming an in situ tumor vaccine containing damage-associated molecular patterns and multiple tumor antigen epitopes to mobilize the immune system. The formed in situ tumor vaccine can recruit and activate antigen-presenting cells, and ultimately increase the infiltration of CD8+ T cells while reversing the immunosuppression microenvironment. Moreover, this approach provokes a robust systemic immune response and immunological memory, as evidenced by preventing 83.3% of mice from postsurgical metastasis or recurrence in the B16-F10 tumor mouse model. Collectively, our results highlight the potential of TALE as a neoadjuvant chemo-immunotherapy paradigm that can not only debulk tumors but generate a long-term immunosurveillance to maximize the durable benefits of neoadjuvant chemotherapy.
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Artemisinin is a sesquiterpene lactone containing a peroxide group isolated from the plant Artemisia annua. It has antimalarial activity and is effective for the treatment of malaria. With the deepening of research on artemisinin, the pharmacological effects of artemisinin and its derivatives in other systems have gradually become a research hotspot. This article reviews the research progress of artemisinin and its derivatives in the prevention and treatment of cardiovascular diseases. Artemisinin and its derivatives in the prevention and treatment of cardiovascular disease have shown anti-atherosclerosis, lipid- lowering, inhibition of vascular remodeling, reducing vascular pressure, improving ventricular remodeling, anti-arrhythmia, protection of vascular endothelium, prevention and treatment of diabetic cardiovascular complications and protection of myocardial cells and other pharmacological effects. It provides a new treatment strategy for common cardiovascular diseases such as hypertension, arrhythmia, coronary heart disease complications after stent implantation, hyperlipidemia, etc. However, there are few studies on the antiplatelet aggregation and antithrombotic effects of artemisinin and its derivatives, the molecular mechanisms behind many pharmacological effects have not yet been clarified, and there is little clinical application. A large number of basic studies and clinical trials are still needed to answer these questions.
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2-cyano-3,12-dioxooleana-1,9 (11)-dien-28-oic acid (CDDO) is a compound synthesized by taking oleanolic acid, a natural triterpene, as a precursor or precursor, and transforming three modifiable functional groups in the molecule through a series of chemical structure modification. In order to improve its anti-tumor activity, CDDO derivatives are further synthesized. In this paper, the research results of anti-tumor effects and mechanisms of CDDO and its derivatives in recent years are summarized. It is found that CDDO and its derivatives have a wide range of anti-tumor effects, and can show significant anti-tumor effects on breast cancer, pancreatic cancer, lung cancer and ovarian cancer at low concentrations such as micromole or even nanomole, among which CDDO methyl ester compound (CDDO-Me) and CDDO imidazolidinone compound (CDDO-Im) have the most obvious effects. CDDO and its derivatives exert anti-tumor activity mainly by inducing tumor cell apoptosis, and regulating metabolic reprogramming and immune microenvironment. The involved pathways mainly include Janus protein tyrosine kinase (JAK)/ signal transduction and transcription activation protein 3(STAT3) signal pathway, nuclear factor E2-related factor 2 (NRF2) signal pathway, phosphatidylinositol 3 kinase (PI3K)/protein kinase B (also known as Akt)/mammalian rapamycin target protein (mTOR) signal pathway, Wnt/β-catenin signal pathway, nuclear factor κB signal pathway.
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@#Androgenetic alopecia (AGA) is the most prominent type of progressive hair loss in humans.At present, medication is the main treatment for AGA, however, drug therapy has significant side-effects. Stem cells provide a new strategy for the treatment of AGA, because of their role in tissue repair and maintenance of microenvironmental homeostasis.This paper reviews the pathogenesis of AGA, discusses the defects of traditional drug therapy,and discusses the research progress of stem cells and stem cell derivatives in the treatment of AGA, in order to provide a comprehensive review of the prospects of stem cell therapy for AGA.
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OBJECTIVE@#To investigate the effect of a water-soluble novel dihydroartemisinin dimer containing nitrogen atoms SM 1044 on the apoptosis of all-trans retinoic acid (ATRA) resistant acute promyelocytic leukemia (APL) NB4-R1 cells and its potential mechanism.@*METHODS@#The effects of SM 1044 on cell apoptosis, mitochondrial transmembrane potential, and the level of reactive oxygen species (ROS) were assessed by flow cytometry. Expressions of apoptosis-related proteins were determined by Western blot. The effects of SM 1044 on MAPK (ERK, JNK) signaling pathway, PML/RARα fusion protein, and expressions of apoptosis-related proteins were detected by Western blot.@*RESULTS@#SM 1044 could significantly induce apoptosis and the loss of mitochondrial transmembrane potential in NB4-R1 cells, and activate apoptosis-related proteins caspase-3, caspase-8, caspase-9 and poly (ADP-ribose) polymerase (PARP). SM 1044 could also induce NB4-R1 cells to produce ROS. Western blot showed that SM 1044 activated the phosphorylation of MAPK (ERK, JNK) signaling pathway and down-regulated the expression of PML/RARα fusion protein.@*CONCLUSION@#SM 1044 can induce apoptosis of ATRA resistant APL NB4-R1 cells, which may be related to ROS/ERK and ROS/JNK signaling pathway, and can also induce by down-regulating PML/RARα fusion protein.
Subject(s)
Humans , Reactive Oxygen Species/pharmacology , Tretinoin/pharmacology , Leukemia, Promyelocytic, Acute , Cell Line , Apoptosis , Oncogene Proteins, Fusion , Cell DifferentiationABSTRACT
Microbial transformation is an efficient enzymatic approach for the structural modification of exogenous compounds to obtain derivatives. Compared with traditional chemical synthesis, the microbial transformation has in fact the undoubtable advantages of strong region-and stereo-selectivity, and a low environmental and economic impact on the production process, which can achieve the reactions challenging to chemical synthesis. Because microbes are equipped with a broad-spectrum of enzymes and therefore can metabolize various substrates, they are not only a significant route for obtaining novel active derivatives, but also an effective tool for mimicking mammal metabolism in vitro. Artemisinin, a sesquiterpene with a peroxy-bridged structure serving as the main active functional group, is a famous antimalarial agent discovered from Artemisia annua L. Some sesquiterpenoids, such as dihydroartemisinin, artemether, and arteether, have been developed on the basis of artemisinin, which have been successfully marketed and become the first-line antimalarial drugs recommended by WHO. As revealed by pharmacological studies, artemisinin and its derivatives have exhibited extensive biological activities, including antimalarial, antitumor, antiviral, anti-inflammatory, and immunomodulatory. As an efficient approach for structural modification, microbial transformation of artemisinin and its derivatives is an increasingly popular strategy that attracts considerable attention recently, and numerous novel derivatives have been discovered. Herein, this paper reviewed the microbial transformation of artemisinin and its artemisinin, including microbial strains, culture conditions, product isolation and yield, and biological activities, and summarized the advances in microbial transformation in obtaining active derivatives of artemisinin and the simulation of in vivo metabolism of drugs.
Subject(s)
Animals , Antimalarials/pharmacology , Antiviral Agents , Artemether , Artemisinins , MammalsABSTRACT
Cytisine derivatives are a group of alkaloids containing the structural core of cytisine, which are mainly distributed in Fabaceae plants with a wide range of pharmacological activities, such as resisting inflammation, tumors, and viruses, and affecting the central nervous system. At present, a total of 193 natural cytisine and its derivatives have been reported, all of which are derived from L-lysine. In this study, natural cytisine derivatives were classified into eight types, namely cytisine type, sparteine type, albine type, angustifoline type, camoensidine type, cytisine-like type, tsukushinamine type, and lupanacosmine type. This study reviewed the research progress on the structures, plant sources, biosynthesis, and pharmacological activities of alkaloids of various types.
Subject(s)
Alkaloids/chemistry , Quinolizines/pharmacology , Azocines/chemistry , FabaceaeABSTRACT
Introducción: el conocimiento del cannabis medicinal data de hace más de 10.000 años y tiene sus orígenes en el continente asiático y en la medicina oriental. En el último tiempo ha surgido especial interés en su uso terapéutico, y Uruguay desde 2013 cuenta con una ley que regula la tenencia y uso de la planta de cannabis. Objetivo: caracterizar el uso de los derivados de cannabis medicinal (DCM) en una población de usuarios uruguayos. Metodología: se realizó un estudio observacional, prospectivo, en una población de usuarios de DCM, a través de encuestas telefónicas. Los datos obtenidos se analizaron utilizando Excel®, mediante estadística descriptiva. Resultados: se incluyeron 32 usuarios entre 29 y 78 años, la mayoría de sexo femenino. La forma farmacéutica más utilizada fue el aceite y la principal indicación fue para el tratamiento del dolor. Se observó una disminución en la intensidad del dolor postratamiento. El principal efecto adverso observado fue la sequedad de boca. Conclusiones: es el primer estudio nacional en caracterizar el uso de DCM artesanal. Se incluyeron 32 usuarios de DCM artesanal. La principal indicación de DCM fue para el tratamiento del dolor, siendo la artrosis su principal causa. Todos los usos fueron para indicaciones no aprobadas si se compara con sus equivalentes industrializados. Predominó el uso en mujeres adultas. Se destacó una gran expectativa frente al inicio del uso. Los eventos adversos observados estuvieron dentro de los esperados y de entidad leve.
Summary: Introduction: knowledge on medical cannabis is over 10,000 years old and stems from Asian and Eastern medicine. In recent years, special interest on its therapeutic use has arisen, and in 2013 Uruguay passed a law to regulate possession and use of cannabis plants. Objective: to characterize the use of medicinal cannabis derivatives in a population of Uruguayan users. Method: observational, prospective study in a population of medicinal cannabis derivatives users through telephone surveys. Data obtained were analysed with Excel®, by using descriptive statistics. Results: thirty two users were included in the study, between 29 and 78 years old, most of which were female. The most widely used pharmaceutical form was oil and the main indication was to treat pain. A decline in pain intensity after treatment was observed. The main adverse effect observed was dry mouth. Conclusions: this is the first national study to characterize the use of artisanal medicinal cannabis derivatives. Thirty two users of artisanal medicinal cannabis derivatives were included in the study. The main indication for artisanal medicinal cannabis derivatives was the treatment of pain, arthrosis being the main cause. All users followed non-approved indications if compared to industrialized equivalents. The use was more extended among women. Great expectation upon initiation of use was noticed. Adverse events observed were mild and the expected.
Introdução: o conhecimento da cannabis medicinal remonta a mais de 10.000 anos e tem suas origens no continente asiático e na medicina oriental. Nos últimos tempos, surgiu um interesse especial em seu uso terapêutico e, desde 2013, o Uruguai possui uma lei que regula a posse e o uso da planta de cannabis. Objetivo: caracterizar o uso de derivados de cannabis medicinal (DCM) em uma população de usuários uruguaios. Metodologia: Foi realizado um estudo observacional, prospectivo, em uma população de usuários de DCM, por meio de inquéritos telefônicos. Os dados obtidos foram analisados ââno programa Excel®, por meio de estatística descritiva. Resultados: foram incluídos 32 usuários entre 29 e 78 anos, a maioria do sexo feminino. A forma farmacêutica mais utilizada foi o óleo e a principal indicação foi para o tratamento da dor. Observou-se diminuição da intensidade da dor pós-tratamento. O principal efeito adverso observado foi boca seca. Conclusões: este é o primeiro estudo nacional a caracterizar o uso de DCM artesanal. Foram incluídos 32 usuários artesanais de DCM. A principal indicação da CMD foi para o tratamento da dor, sendo a osteoartrite sua principal causa. Todos os usos foram para indicações não aprovadas quando comparados aos seus equivalentes industrializados. Predominou o uso em mulheres adultas. Houve uma grande expectativa desde o início do uso. Os eventos adversos observados estavam dentro do esperado e de entidade leve.
Subject(s)
Cannabis , Medical Marijuana/therapeutic use , Osteoarthritis , Pain , Uruguay , Population CharacteristicsABSTRACT
Abstract Oral candidiasis is a common fungal infection that affects the oral mucosa, and happens when Candida albicans interacts with bacteria in the oral microbiota, such as Streptococcus mutans, causing severe early childhood caries. C. albicans and S. mutans mixed biofilms are challenging to treat with conventional antimicrobial therapies, thus, new anti-infective drugs are required. Objective This study aimed to test a drug delivery system based on chitosan microparticles loaded with geranium and lemongrass essential oils to inhibit C. albicans and S. mutans mixed biofilms. Methodology Chitosan microparticles loaded with essential oils (CM-EOs) were obtained by spray-drying. Susceptibility of planktonic were performed according CLSI at 4 to 2,048 µg/mL. Mixed biofilms were incubated at 37ºC for 48 h and exposed to CM-EOs at 256 to 4,096 µg/mL. The antimicrobial effect was evaluated using the MTT assay, with biofilm architectural changes analyzed by scanning electron microscopy. RAW 264.7 cell was used to evaluate compound cytotoxicity. Results CM-EOs had better planktonic activity against C. albicans than S. mutans. All samples reduced the metabolic activity of mixed C. albicans and S. mutans biofilms, with encapsulated oils showing better activity than raw chitosan or oils. The microparticles reduced the biofilm on the slides. The essential oils showed cytotoxic effects against RAW 264.7 cells, but encapsulation into chitosan microparticles decreased their toxicity. Conclusion This study demonstrates that chitosan loaded with essential oils may provide an alternative method for treating diseases caused by C. albicans and S. mutans mixed biofilm, such as dental caries.
ABSTRACT
Abstract Someoxoquinoline-acylhydrazonederivativesshowedactivityagainst HumanImmunodeficiency Virus type 1 (HIV-1). These compounds must also be active against Herpes Simplex Virus type 1 (HSV-1) by an inhibition mechanism where they interact with the HSV-DNA-polymerase/DNA-duplex complex. There are several treatment options for HSV-1 but there is no cure for the disease, which may represent a life risk for individuals co-infected with HIV. In this work molecular docking studies were carried out in an attempt to understand the dual activity of these oxoquinoline-acyhydrazone derivatives. The compounds were docked in two possible situations: (i) in the polymerase domain of HIV-1 Reverse Transcriptase (RT) enzyme in order to verify whether the inhibition occurs similarly to the proposed mechanism for HSV-1 inhibition, where the ligand would form a complex with the enzyme and the DNA; (ii) in the allosteric site of RT in order to verify if the inhibition occur in a similar way to non-nucleoside RT inhibitors (NNRTI). The studied compounds showed higher binding affinity to the allosteric site of RT and the results indicate that the inhibition should occur in a mechanism similar to that of NNRTI, which produces an allosteric inhibition that induces structural changes in the enzymatic active site.