In vitro Biological Properties and in Silico Studies on Tinospora Cordifolia Stem Aqueous Extract.

Tinospora cordifolia, commonly known as "Giloy" or "Guduchi," is a medicinal plant with a rich history in traditional medicine systems. The aqueous extract of Tinospora cordifolia stems has garnered attention due to its reported pharmacological activities. This study aimed to investigate the in vitro biological properties of the aqueous extract and complement the findings with in silico studies to gain insights into potential molecular interactions. The Tinospora cordifolia stem aqueous extract was subjected to a battery of in vitro assays to assess its biological properties. Anti-inflammatory activity was evaluated using invitro assay. To complement the in vitro findings, in silico studies involving molecular docking analyses were conducted to predict potential interactions between the extract's constituents and relevant biomolecular targets. The in vitro evaluation revealed significant anti-inflammatory activity of the Tinospora cordifolia stem aqueous extract, as evidenced by its ability to suppress the production of pro-inflammatory cytokines. In silico studies provided insights into the molecular interactions between the extract's bioactive constituents and key inflammatory and antioxidant targets, further supporting the observed biological properties. The combined in vitro biological assays and in silico studies offer a comprehensive assessment of the Tinospora cordifolia stem aqueous extract's potential therapeutic properties. The demonstrated anti-inflammatory activities align with the traditional use of Tinospora cordifolia and suggest its potential in managing inflammatory and oxidative stress-related disorders. The in silico insights provide a molecular understanding of the extract's mode of action, strengthening the rationale for further investigation and development of natural products derived from Tinospora cordifolia for pharmaceutical and medicinal applications.

Development of Anti-Inflammatory Drug from Crataeva Nurvala: In Silico and In Vitro Approach.

Background: Crataeva nurvala, a medicinal plant with potential therapeutic properties, offers a promising avenue for the development of novel anti-inflammatory drugs. This study adopted a combined in silico and in vitro approach to investigate the anti-inflammatory potential of compounds derived from Crataeva nurvala. Materials and Methods: In the in silico phase, virtual screening and molecular docking analyses were conducted to identify bioactive compounds from Crataeva nurvala that could interact with key inflammatory targets. Subsequently, selected compounds were synthesized and subjected to in vitro experimentation. Cellular models were employed to assess the anti-inflammatory effects of Crataeva nurvala-derived compounds, focusing on the modulation of pro-inflammatory cytokine levels and the underlying signaling pathways. Results: Virtual screening and molecular docking led to the identification of several bioactive compounds with favorable interactions with inflammatory targets. In the in vitro experiments, treatment with Crataeva nurvala-derived compounds resulted in a significant reduction in pro-inflammatory cytokine production. Moreover, the compounds exhibited the ability to modulate inflammatory signaling pathways, further substantiating their anti-inflammatory potential. Conclusions: This study not only contributes to the development of effective anti-inflammatory drugs but also underscores the value of harnessing natural sources such as Crataeva nurvala for therapeutic interventions in inflammatory disorders. The dual-phase strategy presented here provides a robust framework for anti-inflammatory drug discovery and validation.

Phytochemical Screening and Anti-Inflammatory and Anti-Oxidant Activities of Spermacoce Hispida Ethanolic Extract.

Background: Spermacoce hispida, a medicinal plant from the Rubiaceae family, has garnered attention for its traditional use and reported therapeutic properties. This study aimed to investigate the phytochemical composition and assess the anti-inflammatory and anti-oxidant activities of the ethanolic extract derived from Spermacoce hispida. Materials and Methods: Phytochemical screening of the ethanolic extract involved qualitative analysis to identify major phytoconstituents such as tannins, phenols, and acids. The anti-inflammatory activity was evaluated through in vitro assays, and anti-oxidant potential was assessed using established methods to measure scavenging activity against free radicals and reactive oxygen species. Results: Phytochemical screening revealed the presence of various bioactive constituents in the Spermacoce hispida ethanolic extract, including acid, tannin, protein, and phenolic compounds. Furthermore, the extract exhibited potent anti-oxidant activity, as evidenced by its ability to scavenge free radicals and attenuate ROS-induced oxidative stress. Conclusion: The findings of this study underscore the potential of Spermacoce hispida ethanolic extract as a source of bioactive compounds with anti-inflammatory and anti-oxidant properties. The presence of phytochemicals and the observed bioactivity support its traditional use and suggest potential therapeutic applications. These results contribute to the growing body of knowledge on natural products with health-promoting effects and provide a basis for further research aimed at developing pharmaceutical and medicinal interventions harnessing the benefits of Spermacoce hispida.