Ottosenhale8020
Quinazoline and/or chalcones derivatives are important targets in several areas of chemical sciences, mainly, in the medicinal chemistry and pharmaceutical research. The purpose of this review was to systematize the information available in the literature, including patents, regarding the benefits, exerted by the combination of these two pharmacophores into single molecules. These hybrid compounds can exhibit different biological activities, causing a synergistic or a new effect, compared to the individuals. The variability of biological activities includes anticancer, anti-Alzheimer, antiviral and antimicrobial activities, among others. Additionally, synthetic methodologies to prepare the different molecular architectures were discussed based on their similarities. The increasing number of publications indicates the importance of molecular hybridization in the field of drug discovery.Alzheimer's disease (AD) is an age-associated nervous system disorder and a leading cause of dementia worldwide. Clinically, it is described by cognitive impairment and pathophysiologically by deposition of amyloid plaques and neurofibrillary tangles in the brain and neurodegeneration. This article reviews the pathophysiology, course of neuronal degeneration, and the various possible hypothesis of AD progression. These hypotheses include amyloid cascade, tau hyperphosphorylation, cholinergic disruption, metal dysregulation, vascular dysfunction, oxidative stress, and neuroinflammation. There is an exponential increase in the occurrence of AD in the recent few years that indicate an urgent need to develop some effective treatment. Currently, only 2 classes of drugs are available for AD treatment, namely acetylcholinesterase inhibitor and NMDA receptor antagonist. Since AD is a complex neurological disorder and these drugs use a single target approach, alternatives are needed due to limited effectiveness and unpleasant side-effects of these drugs. Currently, plants have been used for drug development research especially because of their multiple sites of action and fewer side effects. Uses of some herbs and phytoconstituents for the management of neuronal disorders like AD have been documented in this article. Phytochemical screening of these plants shows the presence of many beneficial constituents like flavonoids, triterpenes, alkaloids, sterols, polyphenols, and tannins. These compounds show a wide array of pharmacological activities, such as anti-amyloidogenic, anticholinesterase, and antioxidants. This article summarizes the present understanding of AD progression and gathers biochemical evidence from various works on natural products that can be useful in the management of this disease.Production of particles and their adaptation in the pharmacology became an object of interest and there are currently introduced therapies based on the use of micro and nanoparticles. The use of gold particles is not an exception. This review is focused on the application of gold micro and nanoparticles in the pharmacology and biomedicine. Their use in the therapy and diagnosis respective theranostic of cancer, rheumatoid arthritis, antimicrobial means, drugs distribution and other are discussed. Beside these applications, specifications of gold, gold particles and colloidal gold manufacturing and their comparation with the solid gold are described as well. read more This review is based on survey of actual scientific literature.Coumarin, sulphonamide and amide scaffolds exhibit diverse pharmacological features and constitute an important class of therapeutic agents. In this review, we have discussed the synthesis, biological properties, and SAR of coumarins containing sulphonamide or amide group in the last seven years. Many reviews on the therapeutic activities of coumarins, sulphonamides, and amides have been published, hence the authors focused on coumarin-linked sulphonamide or amide scaffolds. The review provides information on the synthetic route to new coumarins containing sulphonamide or amide groups with improved pharmacological properties.Prunus lycioides (Spach) C.K. Schneid. (= Amygdalus lycioides Spach.), popularly recognized as "Badam Talkh kuhi", is an endemic species of Iran. It is widely distributed in Central and West Asia, where it plays a role in preventing and controlling soil erosion. Although domestic species of Prunus genus are well known and widely used in food, pharmaceutical, and cosmetic industries, inadequate information about wild species is available so far. As far as Prunus lycioides, it is commonly used by native people in traditional medicine for treating diabetes, inflammatory diseases, and microbial infections. The wild almonds are traditionally exploited for oil extraction due to their antioxidant properties. This review summarizes advances in the studies regarding Prunus lycioides and its pharmacological properties. The aim of the review is to renew the interest in this promising plant, thus stimulating researchers to go further with the study for discovering new bioactive compounds.
Diabetes mellitus (DM) is characterized by hyperglycemia (high blood glucose levels) which is due to the destruction of insulin producing β-cells in the islets of Langerhans in the pancreas. It is associated with oxidative and endoplasmic reticulum stress. The plant alkaloid Palmatine has been previously reported to possess antidiabetic and antioxidant properties as well as other protective properties against kidney and liver tissue damage.
Here, we investigated the ability of Palmatine to reduce the up-regulation of chaperone proteins glucose regulatory protein 78 (GRP78), and calreticulin (CALR) protein in a streptozotocin (STZ)-induced diabetic rat model.
Streptozotocin (STZ) induced diabetes sprague dawley rats treated with 2mg/kg of Palmatine for 12 weeks after elevation of plasma glucose levels above 11mmol/L post-STZ administration. Proteins were extracted from pancreas after treatment and Two-dimensional gel electrophoresis (2-DE), PD Quest software genomic solutions and mass spectrometer were utine.
Lectins are class of proteins characterized by their ability to selectively bind carbohydrate moieties of glycoproteins. Many invertebrate lectins, especially derived from hemolymph, are being purified, and yet their functions and medical applications are subjects of major interest.
Hemolymph lectins in invertebrates play a major role in protecting against many pathogens and microbes. Further, many hemolymph lectins show anticancer properties towards various cancer cell lines, which expresses globotriaosyl ceramides on their cell surface.
These vast repertoires of hemolymph lectins in recognizing and inhibiting the growth of various harmful microbes and cancerous cells have spurred the biochemist to use them in histochemical and cytochemical studies.
The present review will address the biological roles and biomedical applications of hemolymph lectin.
The present review will address the biological roles and biomedical applications of hemolymph lectin.
