There are many immune‐boosting medicinal plants that can potently activate innate immune cells. Recent studies indicate that the active factors of some immune‐boosting plants are lipopolysaccharides (LPSs) of plant‐associated bacteria. However, little is currently known about the potential risk and benefit of LPSs in medicinal plants. To facilitate their characterization, we established a simple cell‐line‐based assay that can be used to screen the toxicity and benefit of LPSs in medicinal plants. The assay can distinguish endotoxic diphosphoryl lipid A (DPL) from beneficial monophosphoryl lipid A (MPL), which is a clinically used immunological adjuvant for vaccines. The established assay was used to characterize commercial supplements of Ashwagandha, which was shown to contain immunostimulatory LPSs. The study revealed that Ashwagandha activates macrophages in a manner similar to MPL. The current finding underscores the importance of further studies to characterize the LPSs in immune‐boosting medicinal plants.
Withania somnifera (L.) Dunal (family Solanaceae) is a medicinal plant known for, among many pharmacological properties, an immune boosting effect. Our recent study revealed that its key immunostimulatory factor is lipopolysaccharide of plant-associated bacteria. This is peculiar, because, although LPS can elicit protective immunity, it is an extremely potent pro-inflammatory toxin (endotoxin). However, W. somnifera is not associated with such toxicity. In fact, despite the presence of LPS, it does not trigger massive inflammatory responses in macrophages. To gain insights into the safe immunostimulatory effect of W. somnifera, we conducted a mechanistic study on its major phytochemical constituent, withaferin A, which is known for anti-inflammatory activity. Endotoxin-triggered immunological responses in the presence and absence of withaferin A were characterized by both in vitro macrophage-based assay and in vivo cytokine profiling in mice. Collectively, our results demonstrate that withaferin A selectively attenuates the pro-inflammatory signaling triggered by endotoxin without impairing other immunological pathways. This finding provides a new conceptual framework to understand the safe immune-boosting effect of W. somnifera and possibly other medicinal plants. Furthermore, the finding opens a new opportunity to facilitate the development of safe immunotherapeutic agents, such as vaccine adjuvants.
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