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Tinospora cordifolia, Giloy, Ayurvedic medicine, Immunomodulatory, Anti-inflammatory, Antiviral, Autoimmune arthritis, Phytoconstituents, Tinosporide, Berberine, Neuroprotective, Cholinesterase inhibition, SARS-CoV-2, Phytochemicals, Quality control, High-performance liquid chromatography, Endophytic fungi, Traditional medicine, Modern research, Pharmacological properties, Herbal formulations, Autoimmune diseases, Neurodegenerative diseases |
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Tinospora cordifolia, commonly known as Giloy, is a renowned medicinal plant in traditional Ayurvedic medicine, primarily valued for its diverse therapeutic properties. Often referred to as the "nectar of immortality" or "Amrita," this climbing shrub from the Menispermaceae family has been widely used for centuries in the treatment of various ailments, including fevers, jaundice, autoimmune disorders, chronic illnesses, and infectious diseases. Recent studies have solidified its status as a versatile plant with significant pharmacological, immunomodulatory, and anti-inflammatory effects, which extend to a variety of conditions ranging from autoimmune arthritis to viral infections such as SARS-CoV-2.
Pharmacologically, Tinospora cordifolia contains a wide range of bioactive compounds, including alkaloids, glycosides, diterpenoid lactones, and polysaccharides, that contribute to its broad therapeutic range. Studies by Sharma et al.² and Swaminathan et al.³ have elaborated on its chemical diversity, highlighting compounds such as tinosporide and berberine, which possess potent anti-inflammatory and antioxidant properties. This chemical complexity enhances its therapeutic value, making it useful in treating inflammatory and oxidative stress-related diseases.
The immunomodulatory properties of Giloy are particularly notable, with Sainis et al.⁵ and Girme et al.⁷ emphasizing its role in regulating both innate and adaptive immune responses. This makes it a valuable treatment for autoimmune diseases and infections, by modulating immune functions and alleviating symptoms associated with conditions such as rheumatoid arthritis and chronic viral infections. Furthermore, research has shown that Tinospora cordifolia plays an essential role in managing autoimmune arthritis by regulating key immune mediators involved in inflammation and bone damage, as demonstrated by studies on autoimmune arthritis models.⁸
Additionally, the plant's antiviral potential has gained attention, particularly in the context of COVID-19, where molecular dynamics studies by Chowdhury⁹ have shown that its phytoconstituents, including tinosporide, exhibit strong binding affinities to viral proteins, suggesting a potential therapeutic application in viral infections. In addition to its antiviral and immune-modulating activities, the plant has been shown to possess neuroprotective effects, with compounds like tinosporide and 8-hydroxytinosporide exhibiting promising cholinesterase inhibitory activity, which could help in managing neurodegenerative diseases such as Alzheimer’s disease.¹¹
Moreover, recent advancements in analytical techniques have improved the quality control and standardization of Giloy-based formulations. High-performance liquid chromatography (HPLC) and mass spectrometry, as developed by Girme et al.⁷, have made it possible to accurately quantify the bioactive constituents in Tinospora cordifolia, ensuring consistent therapeutic effects and enabling its integration into modern healthcare systems. The plant’s interactions with endophytic fungi, which may enhance its therapeutic properties, also highlight the role of environmental factors in optimizing its pharmacological efficacy.¹⁰
In conclusion, Tinospora cordifolia, through its chemical richness and diverse therapeutic properties, stands as a testament to the integrative potential of traditional herbal remedies and modern scientific research. Its immunomodulatory, anti-inflammatory, antiviral, and neuroprotective effects position it as a promising candidate for further clinical exploration. Future studies should focus on large-scale trials, the standardization of formulations, and investigating potential synergies with other therapeutic agents to fully harness its medicinal potential.
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