Polyherbal Antiacne Gel: In Vitro Antibacterial Activity and Efficacy Evaluation Against Cutibacterium acnes.

Acne is a common skin condition that affects people of all ages and can lead to significant physical and psychological distress. The first line of action against acne is topical products, though the most effective are topical antibiotics. In such a scenario, the development of effective and safe herbal formulations for the treatment of acne is of great importance. Rubia cordifolia, Aloe barbadensis, and Allium cepa extracts are rich sources of bioactive metabolites and are safe compared with antibiotics, in addition to being cost effective, sustainable, and eco-friendly. Also, their combination has not been studied for treating acne, and their potential benefits need to be investigated. The present study aimed to develop an effective polyherbal gel formulation of R. cordifolia, A. barbadensis, and A. cepa combined extract for treating acne and validate its effect with reference to conventional antibiotics. Plant materials were extracted in water by the reflux method, and phytochemical analysis was done for flavonoid, anthraquinone, and phenolic contents. The combined extract (R. cordifolia, A. barbadensis, and A. cepa extracts) was formulated in gel. The selected polyherbal gel was evaluated for in vitro antibacterial activity using agar well diffusion against Cutibacterium acnes (P. acnes) culture. Phytochemical analysis of the composite extract revealed the rich presence of flavonoids, phenolics, and anthraquinones. The polyherbal gels showed good physicochemical properties; however, FCEG-4 was selected for further studies. It was found to be effective against C. acnes (MTCC 1951) in agar well diffusion, as it showed a similar zone of inhibition as that of standard. Also, during in vivo studies, FCEG-4 showed comparable efficacy with clindamycin gel. It was concluded from the study that composite extracts incorporated in an aqueous-based gel system were effective in topical therapy of mild acne vulgaris, showing similar efficacy to that of clindamycin cream.

Herbal Nanoformulations for Diabetes: Mechanisms, Formulations, and Clinical Impact.

BACKGROUND: Diabetes mellitus remains a global health challenge, demanding innovative therapeutic strategies. Herbal remedies have garnered attention for their potential in diabetes management, and recent advancements in nanotechnology have enabled the development of herbal nanoformulations with enhanced efficacy and bioavailability. OBJECTIVE: This review aimed to comprehensively analyze the mechanisms, formulations, and clinical impact of herbal nanoformulations in managing diabetes mellitus. METHOD: A systematic literature search was conducted to identify relevant studies exploring the mechanisms of action, various formulations, and clinical outcomes of herbal nanoformulations in diabetes management. RESULT: Herbal nanoformulations exert their anti-diabetic effects through multiple mechanisms, including enhanced bioavailability, improved tissue targeting, and potentiation of insulin signaling pathways. Various herbal ingredients, such as bitter melon, fenugreek, and Gymnema sylvestre, have been encapsulated into nanocarriers, like liposomes, polymeric nanoparticles, and solid lipid nanoparticles, to enhance their therapeutic potential. Clinical studies have demonstrated promising results, showing improvements in glycemic control, lipid profile, and antioxidant status with minimal adverse effects. CONCLUSION: Herbal nanoformulations represent a promising avenue for the management of diabetes mellitus, offering improved therapeutic outcomes compared to conventional herbal preparations. Further research is warranted to optimize formulation strategies, elucidate long-term safety profiles, and explore the potential synergistic effects of herbal nanoformulations in combination therapies for diabetes management.

Design, Synthesis and Biological Activity of Some 4, 5-Disubstituted-2, 4- Dihydro-3H-1, 2, 4- Triazole-3-Thione Derivatives.

BACKGROUND: In the present study, 4, 5-disubstituted triazol-3-thione derivatives were synthesized and evaluated for anticonvulsant activity along with neurotoxicity determination. MATERIALS AND METHODS: The synthesized compounds were characterized using FTIR, 1H-NMR and MS. The anticonvulsant activity was assessed by Maximal Electroshock (MES) test and subcutaneous Pentylenetetrazole (scPTZ) tests and neurotoxicity was assessed by rotarod test. Docking was also performed to study the interactions of compounds with LYS329 residue of gamma amino butyric acid aminotransferase (GABA-AT) using Autodock 4.2 software. RESULTS: The compounds 7a and 9a with significant pharmacological activity were also found to interact with LYS329 residue of GABA-AT by H-bond with a docking score of -5.92 kcal/mol (Ki = 41.99 µM) and -5.87 kcal/mol (Ki = 49.83 µM) respectively. CONCLUSION: Most of the compounds were found to be active in MES test but only seven showed protection in scPTZ test.

Proteomic Analysis of the Resistance Mechanisms in Sugarcane during Sporisorium scitamineum Infection.

Smut disease is caused by Sporisorium scitamineum, an important sugarcane fungal pathogen causing an extensive loss in yield and sugar quality. The available literature suggests that there are two types of smut resistance mechanisms: external resistance by physical or chemical barriers and intrinsic internal resistance mechanisms operating at host⁻pathogen interaction at cellular and molecular levels. The nature of smut resistance mechanisms, however, remains largely unknown. The present study investigated the changes in proteome occurring in two sugarcane varieties with contrasting susceptibility to smut-F134 and NCo310-at whip development stage after S. scitamineum infection. Total proteins from pathogen inoculated and uninoculated (control) leaves were separated by two-dimensional gel electrophoresis (2D-PAGE). Protein identification was performed using BLASTp and tBLASTn against NCBI nonredundant protein databases and EST databases, respectively. A total of thirty proteins spots representing differentially expressed proteins (DEPs), 16 from F134 and 14 from NCo310, were identified and analyzed by MALDI-TOF/TOF MS. In F134, 4 DEPs were upregulated and nine were downregulated, while, nine were upregulated and three were downregulated in NCo310. The DEPs were associated with DNA binding, metabolic processes, defense, stress response, photorespiration, protein refolding, chloroplast, nucleus and plasma membrane. Finally, the expression of CAT, SOD, and PAL with recognized roles in S. scitamineum infection in both sugarcane verities were analyzed by real-time quantitative PCR (RT-qPCR) technique. Identification of genes critical for smut resistance in sugarcane will increase our knowledge of S. scitamineum-sugarcane interaction and help to develop molecular and conventional breeding strategies for variety improvement.