Is the carotenoid production from Phaffia rhodozyma yeast genuinely sustainable? a comprehensive analysis of biocompatibility, environmental assessment, and techno-economic constraints.

Microorganisms, such as yeasts, filamentous fungi, bacteria, and microalgae, have gained significant attention due to their potential in producing commercially valuable natural carotenoids. In recent years, Phaffia rhodozyma yeasts have emerged as intriguing non-conventional sources of carotenoids, particularly astaxanthin and ß-carotene. However, the shift from academic exploration to effective industrial implementation has been challenging to achieve. This study aims to bridge this gap by assessing various scenarios for carotenoid production and recovery. It explores the use of ionic liquids (ILs) and bio-based solvents (ethanol) to ensure safe extraction. The evaluation includes a comprehensive analysis involving Life Cycle Assessment (LCA), biocompatibility assessment, and Techno-Economic Analysis (TEA) of two integrated technologies that utilize choline-based ILs and ethanol (EtOH) for astaxanthin (+ß-carotene) recovery from P. rhodozyma cells. This work evaluates the potential sustainability of integrating these alternative solvents within a yeast-based bioeconomy.

Phthalimide as a versatile pharmacophore scaffold: Unlocking its diverse biological activities.

Phthalimide, a pharmacophore exhibiting diverse biological activities, holds a prominent position in medicinal chemistry. In recent decades, numerous derivatives of phthalimide have been synthesized and extensively studied for their therapeutic potential across a wide range of health conditions. This comprehensive review highlights the latest developments in medicinal chemistry, specifically focusing on phthalimide-based compounds that have emerged within the last decade. These compounds showcase promising biological activities, including anti-inflammatory, anti-Alzheimer, antiepileptic, antischizophrenia, antiplatelet, anticancer, antibacterial, antifungal, antimycobacterial, antiparasitic, anthelmintic, antiviral, and antidiabetic properties. The physicochemical profiles of the phthalimide derivatives were carefully analyzed using the online platform pkCSM, revealing the remarkable versatility of this scaffold. Therefore, this review emphasizes the potential of phthalimide as a valuable scaffold for the development of novel therapeutic agents, providing avenues for the exploration and design of new compounds.

Synthesis and Anti-Mycobacterium tuberculosis Activity of Imidazo[2,1-b][1,3]oxazine Derivatives against Multidrug-Resistant Strains.

The emergence of multidrug-resistant strains of M. tuberculosis has raised concerns due to the greater difficulties in patient treatment and higher mortality rates. Herein, we revisited the 2-nitro-6,7-dihydro-5H-imidazo[2,1-b][1,3]oxazine scaffold and identified potent new carbamate derivatives having MIC90 values of 0.18-1.63 µM against Mtb H37Rv. Compounds 47-49, 51-53, and 55 exhibited remarkable activity against a panel of clinical isolates, displaying MIC90 values below 0.5 µM. In Mtb-infected macrophages, several compounds demonstrated a 1-log greater reduction in mycobacterial burden than rifampicin and pretomanid. The compounds tested did not exhibit significant cytotoxicity against three cell lines or any toxicity to Galleria mellonella. Furthermore, the imidazo[2,1-b][1,3]oxazine derivatives did not show substantial activity against other bacteria or fungi. Finally, molecular docking studies revealed that the new compounds could interact with the deazaflavin-dependent nitroreductase (Ddn) in a similar manner to pretomanid. Collectively, our findings highlight the chemical universe of imidazo[2,1-b][1,3]oxazines and their promising potential against MDR-TB.

Tuberculosis Drug Discovery: Challenges and New Horizons.

Over the past 2000 years, tuberculosis (TB) has claimed more lives than any other infectious disease. In 2020 alone, TB was responsible for 1.5 million deaths worldwide, comparable to the 1.8 million deaths caused by COVID-19. The World Health Organization has stated that new TB drugs must be developed to end this pandemic. After decades of neglect in this field, a renaissance era of TB drug discovery has arrived, in which many novel candidates have entered clinical trials. However, while hundreds of molecules are reported annually as promising anti-TB agents, very few successfully progress to clinical development. In this Perspective, we critically review those anti-TB compounds published in the last 6 years that demonstrate good in vivo efficacy against Mycobacterium tuberculosis. Additionally, we highlight the main challenges and strategies for developing new TB drugs and the current global pipeline of drug candidates in clinical studies to foment fresh research perspectives.

Discovery of (E)-4-styrylphenoxy-propanamide: A dual PPARα/γ partial agonist that regulates high-density lipoprotein-cholesterol levels, modulates adipogenesis, and improves glucose tolerance in diet-induced obese mice.

Peroxisome proliferator-activated receptors are promising therapeutic targets for metabolic diseases, including obesity, diabetes, and dyslipidemia. This study describes the design, synthesis and pharmacological evaluation of stilbene-based compounds as dual PPARα/γ partial agonists with potency in the nanomolar range. In vitro and in vivo assays revealed that the lead compound (E)-4-styrylphenoxy-propanamide (5b) removed 14C-cholesterol from the foam cells through apolipoprotein A-I and High-Density Lipoprotein-2. In the high-fat diet-induced obesity mouse model, the oral administration of compound 5b increased HDL levels, paraoxonase-1 activity, and insulin sensitivity, and decreased glucose levels. Moreover, the adipogenesis pathway and triglyceride accumulation slightly changed in the adipocyte cells upon treatment with compound 5b, without affecting the body weight and adipose tissue in obese mice. Compound 5b did not affect the plasma levels of hepatic and renal injury biomarkers. Thus, stilbene-based compound 5b is a promising prototype for developing novel candidates to treat dyslipidemia and diabetes.

Benzofuroxan Derivatives as Potent Agents against Multidrug-Resistant Mycobacterium tuberculosis.

Tuberculosis (TB) is currently the leading cause of death related to infectious diseases worldwide, as reported by the World Health Organization. Moreover, the increasing number of multidrug-resistant tuberculosis (MDR-TB) cases has alarmed health agencies, warranting extensive efforts to discover novel drugs that are effective and also safe. In this study, 23 new compounds were synthesized and evaluated in vitro against the drug-resistant strains of M. tuberculosis. The compound 6-((3-fluoro-4-thiomorpholinophenyl)carbamoyl)benzo[c][1,2,5]oxadiazole 1-N-oxide (5 b) was particularly remarkable in this regard as it demonstrated MIC90 values below 0.28 µM against all the MDR strains evaluated, thus suggesting that this compound might have a different mechanism of action. Benzofuroxans are an attractive new class of anti-TB agents, exemplified by compound 5 b, with excellent potency against the replicating and drug-resistant strains of M. tuberculosis.

The use of Sulfonamide Derivatives in the Treatment of Trypanosomatid Parasites including Trypanosoma cruzi, Trypanosoma brucei, and Leishmania ssp.

More than 10 million people around the world are afflicted by Neglected Tropical Diseases, such as Chagas Disease, Human African Trypanosomiasis, and Leishmania. These diseases mostly occur in undeveloped countries that suffer from a lack of economic incentive, research, and policy for new compound development. Sulfonamide moieties are effective scaffolds present in several compounds that are determinants to treat various diseases, principally neglected tropical diseases. This review article examines the contribution of these scaffolds in medicinal chemistry in the last five years, focusing on three trypanosomatid parasites: Trypanosoma cruzi, Trypanosoma brucei, and Leishmania ssp. We also present perspectives for their use in drug designs in an effort to contribute to new drug development. In addition, we consider the physicochemical parameters, whose molecules all presented according to Lipinski's rule. The correlation between the selective index and LogP was evaluated, showing that sulfonamide derivatives can act differently against each trypanosomatid parasite. Moreover, the approaches of novel drugs and technologies are very important for the eventual drug discovery against trypanosomatid diseases.

Hydroxymethylnitrofurazone treatment in indeterminate form of chronic Chagas disease: Reduced intensity of tissue parasitism and inflammation-A histopathological study.

Hydroxymethylnitrofurazone (NFOH) is a nitrofurazone prodrug effective in vivo during acute infections, and it has less hepatotoxicity effect than the standard drug benznidazole (BZN) which has been used during short- and long-term treatment. In the present study, we induced the indeterminate form of Chagas disease in mice with a Y strain of Trypanosoma cruzi and analysed the histopathological data about the effects of NFOH and BZN on different tissues, including the heart, skeletal muscle, liver, kidney, colon, spleen and brain. After infection, BALB/c mice were treated with NFOH (150 mg/kg) and BZN (60 mg/kg) for 60 days and then submitted to immunosuppression using dexamethasone (5 mg/kg) for 14 days. Two trained analysts, as part of a blind evaluation, examined the results using serial sections of 3 mm diameter in two different moments. The results showed reactivation of the disease only in the infected nontreated group (POS). After treatment, amastigote nests were found in the heart, colon, liver and skeletal muscle in the POS group and in the heart and liver of the BZN group. Interestingly, amastigote nests were not found in the NFOH and NEG groups. The histopathological analysis showed fewer tissue lesions and parasite infiltrates in the NFOH group when compared with the BZN and POS groups. We have not observed any increase in the levels of hepatocellular injury biomarkers (AST/ALT) in the NFOH group. These in vivo studies show the potential for NFOH as an effective and safe compound useful as an anti-T. cruzi agent.

Synthesis and Immunosuppressive Activity of New Mycophenolic Acid Derivatives.

BACKGROUND: Immunosuppressive drugs are widely used to prevent and treat allograft rejection and autoimmune diseases. Mycophenolic acid (MPA) and its derivatives are currently one of the most prescribed immunosuppressive drugs; however, metabolic drawbacks and variable interand intrapatient responses limit their use. OBJECTIVE: In order to find out new safe and effective immunosuppressive compounds, we report here the synthesis and pharmacological evaluation of hybrid MPA derivatives containing the thalidomide/ phthalimide subunits. RESULTS: All compounds 3a-d exhibited an enhanced ability to reduce the levels of pro-inflammatory cytokines compared to the parental drugs MPA and thalidomide. The mixed lymphocyte reaction assay has demonstrated that compound 3d - (E)-(3-(1,3-dioxoisoindolin-2-yl)-2,6-dioxopiperidin-1- yl)methyl-6-(4-hydroxy-6-methoxy-7-methyl-3-oxo-1,3-dihydroisobenzofuran-5-yl)-4-methylhex-4- enoate - has superior activity compared to that of MPA. In addition, compound 3d was less cytotoxic against Jurkat cells than MPA and did not demonstrate in vivo genotoxic effect. CONCLUSION: All these data have shown that compound 3d is a promising lead compound useful in the immunosuppressive therapy.

Beneficial Effect of the Nitric Oxide Donor Compound 3-(1,3-Dioxoisoindolin-2-yl)Benzyl Nitrate on Dysregulated Phosphodiesterase 5, NADPH Oxidase, and Nitrosative Stress in the Sickle Cell Mouse Penis: Implication for Priapism Treatment.

Patients with sickle cell disease (SCD) display priapism, and dysregulated nitric oxide (NO) pathway may contribute to this condition. However, current therapies offered for the prevention of priapism in SCD are few. The 3-(1,3-dioxoisoindolin-2-yl)benzyl nitrate (compound 4C) was synthesized through molecular hybridization of hydroxyurea and thalidomide, which displays an NO-donor property. This study aimed to evaluate the effects of compound 4C on functional and molecular alterations of erectile function in murine models that display low NO bioavailability, SCD transgenic mice, and endothelial NO synthase and neuronal NO synthase double gene-deficient (dNOS-/) mice, focusing on the dysregulated NO-cGMP- phosphodiesterase type 5 (PDE5) pathway and oxidative stress in erectile tissue. Wild-type, SCD, and dNOS-/- mice were treated with compound 4C (100 µmol/kg/d, 3 weeks). Intracavernosal pressure in anesthetized mice was evaluated. Corpus cavernosum tissue was dissected free and mounted in organ baths. SCD and dNOS-/- mice displayed a priapism phenotype, which was reversed by compound 4C treatment. Increased corpus cavernosum relaxant responses to acetylcholine and electrical-field stimulation were reduced by 4C in SCD mice. Likewise, increased sodium nitroprusside-induced relaxant responses were reduced by 4C in cavernosal tissue from SCD and dNOS-/- mice. Compound 4C reversed PDE5 protein expression and reduced protein expressions of reactive oxygen species markers, NADPH oxidase subunit gp91phox, and 3-nitrotyrosine in penises from SCD and dNOS-/- mice. In conclusion, 3-week therapy with the NO donor 4C reversed the priapism in murine models that display lower NO bioavailability. NO donor compounds may constitute an additional strategy to prevent priapism in SCD.

Mutagenic and genotoxic effect of hydroxyurea.

The hydroxyurea, a cytotoxic drug, is the mainly available therapeutical strategy for the treatment of sickle cell disease. This study aimed to evaluate the mutagenic and genotoxic potential of the hydroxyurea through the Salmonella/Microsome assay and micronucleus test in peripheral blood of mice. The doses were evaluated at 29.25-468 µmol/plate in Salmonella/Microsome assay in presence and absence of metabolic activation the drug. In the micronucleus test the doses were evaluated at 12.5; 25; 50; 75 and 100 mg/kg. The results show that hydroxyurea present mutagenic activity in TA98 and TA100 in doses above 117 µmol/plate and 234 µmol/plate respectively. The drug induced a significant increase in the frequency of micronuclei in reticulocytes of mice at concentrations of 50, 75 and 100 mg/kg, compared to negative control (water). These results demonstrated the mutagenic and genotoxic potential of hydroxyurea.

Planejamento, síntese e avaliação farmacológica de compostos híbridos potencialmente ativos para o tratamento da anemia falciforme / Design, synthesis and pharmacological evaluation of hybrid compounds that are potentially active in the treatment of sickle cell disease

A anemia falciforme é uma anemia hemolítica hereditáriadevida à herança de um gene para a hemoglobina S, de cada um dosprogenitores. Pacientes com anemia falciforme apresentam aumentodos níveis circulantes de citocinas, incluindo fator de necrosetumoral-α (TNF-α). A hidroxiureia é a estratégia terapêutica disponívelpara o tratamento; atuando como fonte de óxido nítricobeneficia os pacientes por aumentar os níveis de hemoglobinafetal (Hb F). Nesse contexto, dentro de uma linha de pesquisa quevisa à busca de novos fármacos, foi sintetizada uma série de compostoscom propriedades inibidoras de TNF-α e doadoras deóxido nítrico, a fim de explorar eventual sinergismo de ação benéficoao tratamento da doença. Foram sintetizados seis compostos,dos quais cinco são derivados nitratos e um sulfonamídico. .... Os compostos apresentaramcomparável redução da infiltração leucocitária e capacidadede geração de óxido nítrico. Os compostos arílicos III, IV e Vapresentam menor mutagenicidade quando comparados aoscompostos I, II e VI em ensaio de mutagenicidade usando-seSalmonella (teste AMES). Esse conjunto de dados caracteriza a obtençãode novos candidatos a fármacos potencialmente úteis para otratamento dos sintomas da anemia falciforme.

Sickle cell disease (SCD) is a hereditary hemolytic anemiacaused by the inheritance of one S hemoglobin gene from eachancestor. Patients with SCD present increased circulating levelsof cytokines, including TNF-alpha (TNF-α). Hydroxyurea (HU)is the available therapeutically strategy for treatment; it acts as asource of nitric oxide and benefits patients by increasing the levelsof fetal hemoglobin (HbF). Thus, within one research line thataims at finding new drugs, a series of compounds with TNF-αinhibition and nitric oxide donation properties have beensynthesized in order to explore possible synergism of actionsbeneficial in the treatment of the disease. S.... All compounds showedanti-inflammatory and analgesic effects with a reduction in 43%-65% of ear edema in mice and a reduction of 25%-42% of writhinginduced by acetic acid. All compounds showed comparablereductions in the leukocyte infiltration capacity and ability togenerate nitric oxide. The aryl compounds (III, IV and V) presentedless mutagenic activity compared to compounds I, II and VIaccording to the salmonella mutagenicity assay (Ames test).Compounds IV and VI showed activity in K562 culture cells,with increases in gamma globin gene expression to levels higherthan with hydroxyurea suggesting a potential to increase fetalhemoglobin. This data set characterizes new potentially usefuldrug candidates for the treatment of symptoms of sickle cellanemia.

Synthesis and in vitro anti Mycobacterium tuberculosis activity of a series of phthalimide derivatives.

New phthalimide derivatives were easily prepared through condensation of phthalic anhydride and selected amines with variable yields (70-90%). All compounds (3a-l) were evaluated against Mycobacterium tuberculosis H(37)Rv using Alamar Blue susceptibility. The compounds 3c, 3i, and 3l have the minimum inhibitory concentrations (MICs) of 3.9, 7.8, and 5.0 microg/mL, respectively, and could be considered new lead compounds in the treatment of tuberculosis and multi-drug resistant tuberculosis.

Synthesis and anti-platelet activity of novel arylsulfonate--acylhydrazone derivatives, designed as antithrombotic candidates.

In this work, we describe a new class of promising anti-platelet drug candidates with significant antithrombotic activity in vivo. This new series of compounds was structurally planned by modification of known thrombin inhibitors based on the use of acylhydrazone subunit, as a nonpeptide scaffold, and variations at P1 moiety. Three different families of arylsulfonate-acylhydrazone derivatives were designed. The bioassays indicated the first class of derivatives represented by 4f (LASSBio-693) and 4j (LASSBio-743), which were active in inhibiting the platelet aggregation induced by thrombin. The second class represented by compounds 4e (LASSBio-774) and 4h (LASSBio-480) that selectively inhibit the platelet aggregation involving TXA(2) formation. Finally, the third class of derivatives was identified acting as a novel symbiotic agent able to inhibit the platelet aggregation induced by collagen or AA and by thrombin, represented by compounds 4b (LASSBio-694) and 4g (LASSBio-770).