Andrographolide Loaded in Micro-and Nano-Formulations: Improved Bioavailability, Target-Tissue Distribution, and Efficacy of the “King of Bitters”

Andrographolide (AG) is the characteristic constituent of Andrographis paniculata, of the Acanthaceae family. This plant is a well-known Asian medicinal plant that is widely used in India, China, and Thailand. A monograph of Herba Andrographidis (Chuanxinlian) is included in the Chinese Pharmacopoeia, which reports that this decoction can “remove heat, counteract toxicity, and reduce swellings.” The numerous potential activities of AG range from anti-inflammatory to anti-diabetic action, from neuroprotection to antitumor activity, and from hepatoprotective to anti-obesity properties. However, AG has low bioavailability and poor water solubility, which can limit its distribution and accumulation in the body after administration. In addition, AG is not stable in gastrointestinal alkaline and acidic environments, and has been reported to have a very short half-life. Among the diverse strategies that have been adopted to increase AG water solubility and permeability, the technological approach is the most useful way to develop appropriate delivery systems. This review reports on published studies related to microparticles (MPs) and nanoparticles (NPs) loaded with AG. MPs based on polylactic-glycolic acid (PLGA), alginic acid, and glucan derivatives have been developed for parenteral oral and pulmonary administration, respectively. NPs include vesicles (both liposomes and niosomes);polymeric NPs (based on polyvinyl alcohol, polymerized phenylboronic acid, PLGA, human serum albumin, poly ethylcyanoacrylate, and polymeric micelles);solid lipid NPs;microemulsions and nanoemulsions;gold NPs;nanocrystals;and nanosuspensions. Improved bioavailability, target-tissue distribution, and efficacy of AG loaded in the described drug delivery systems have been reported.

Mounting evidence of FKBP12 implication in neurodegeneration

Intrinsically disordered proteins, such as tau or α-synuclein, have long been associated with a dysfunctional role in neurodegenerative diseases. In Alzheimer’s and Parkinson’s’ diseases, these proteins, sharing a common chemical-physical pattern with alternating hydrophobic and hydrophilic domains rich in prolines, abnormally aggregate in tangles in the brain leading to progressive loss of neurons. In this review, we present an overview linking the studies on the implication of the peptidyl-prolyl isomerase domain of immunophilins, and notably FKBP12, to a variety of neurodegenerative diseases, focusing on the molecular origin of such a role. The involvement of FKBP12 dysregulation in the aberrant aggregation of disordered proteins pinpoints this protein as a possible therapeutic target and, at the same time, as a predictive biomarker for early diagnosis in neurodegeneration, calling for the development of reliable, fast and cost-effective detection methods in body fluids for community-based screening campaigns.

Fecal metabolomic profiles: A comparative study of patients with colorectal cancer vs adenomatous polyps

BACKGROUND Colorectal cancer(CRC),the third most common cause of death in both males and females worldwide,shows a positive response to therapy and usually a better prognosis when detected at an early stage.However,the survival rate declines when the diagnosis is late and the tumor spreads to other organs.Currently,the measures widely used in the clinic are fecal occult blood test and evaluation of serum tumor markers,but the lack of sensitivity and specificity of these markers restricts their use for CRC diagnosis.Due to its high sensitivity and precision,colonoscopy is currently the gold-standard screening technique for CRC,but it is a costly and invasive procedure.Therefore,the implementation of custom-made methodologies including those with minimal invasiveness,protection,and reproducibility is highly desirable.With regard to other screening methods,the screening of fecal samples has several benefits,and metabolomics is a successful method to classify the metabolite shift in living systems as a reaction to pathophysiological influences,genetic modifications,and environmental factors.AIM To characterize the variation groups and potentially recognize some diagnostic markers,we compared with healthy controls(HCs)the fecal nuclear magnetic resonance(NMR)metabolomic profiles of patients with CRC or adenomatous polyposis(AP).METHODS Proton nuclear magnetic resonance spectroscopy was used in combination with multivariate and univariate statistical approaches,to define the fecal metabolic profiles of 32 CRC patients,16 AP patients,and 38 HCs well matched in age,sex,and body mass index.RESULTS NMR metabolomic analyses revealed that fecal sample profiles differed among CRC patients,AP patients,and HCs,and some discriminatory metabolites including acetate,butyrate,propionate,3-hydroxyphenylacetic acid,valine,tyrosine and leucine were identified.CONCLUSION In conclusion,we are confident that our data can be a forerunner for future studies on CRC management,especially the diagnosis and evaluation of the effectiveness of treatments.

Advanced methodologies for the cleaning of works of art

Cultural heritage assets constitute a fundamental socioeconomic resource,but the actual works of art need to be maintained,counteracting degradation processes,to transfer these benefits to future generations.In particular,the removal of soil,aged coatings,and vandalism/overpaints is one of the most needed interventions in art restoration.Traditional cleaning methodologies,based on classical solution and polymer chemistry,only grant limited control of the cleaning interventions,with the risk of affecting the original components of the artifacts,and often involving the use of toxic or non-environmentally friendly compounds.Alternatively,materials science,colloids,and soft matter have provided valuable and safe solutions in the last decades.This review provides a selection of the most recent and advanced methodologies for the wet cleaning of works of art,spanning from nanostructured cleaning fluids(microemulsions,surfactants swollen micelles)to physical and chemical gels.The new methodologies work on different physico-chemical mechanisms,such as processes for detaching/dewetting,to selectively remove the unwanted layers in sustainable and cost-effective interventions.The best performing systems,like microemulsions confined in“twin-chain”polyvinyl alcohol gels,have been assessed in the cleaning of masterpieces such as works by Pablo Picasso,Jackson Pollock and Roy Lichtenstein.Particular attention is dedicated to“green”chemistry systems,using low-toxicity solvents or bio-based/waste materials to build gel networks.Finally,current trends and future perspectives are given,showing that advanced systems for art cleaning link with transversal fields of crucial importance even beyond Cultural heritage conservation,e.g.,detergency,tissue engineering,drug-delivery,food industry and cosmetics.

Graphene-Oxide Mediated Chemodivergent Ring-Opening of Cyclobutanols

The chemodivergent ring-opening of cyclobutanols is described under the carbocatalytic assistance of graphene oxide(GO).The protocol enables the synthesis of diversely functionalized dienes or indenes(26 examples)based on the amount of GO employed.Spectroscopic(XPS and ssNMR)as well as experimental investigations revealed a direct involvement of theπ-domains of GO in tuning the stability of carbocationic intermediates during the reaction.