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| Cichoric acid Cichoric acid / Chicoric acid — Cichoric acid is a naturally occurring dicaffeoyltartaric acid polyphenol, formally a hydroxycinnamic acid derivative composed of two caffeic acid units esterified to tartaric acid. It is best classified as a plant-derived phenolic acid / caffeic-acid derivative rather than a drug. Standard abbreviations include Cic, ChicA, and CA, although CA is ambiguous because it is also used for caffeic acid, chlorogenic acid, carnosic acid, and many other database entries. Major sources include Echinacea purpurea, chicory, lettuce, basil, dandelion, and other Asteraceae/Lamiaceae plants. It is commonly used as a quality-marker compound for Echinacea purpurea extracts, but its direct cancer-development status remains preclinical only. Primary mechanisms (ranked):
Bioavailability / PK relevance: Oral systemic translation is constrained by polyphenol-type absorption, metabolism, plasma protein binding, and formulation stability. Rat PK/tissue-distribution work exists, but direct human PK data for isolated cichoric acid are limited. Echinacea extract exposure cannot be assumed to equal isolated cichoric acid exposure because alkamides, polysaccharides, glycoproteins, caftaric acid, and other constituents may drive part of the immune effect. In-vitro vs systemic exposure relevance: Many mechanistic studies use low-to-high micromolar cichoric acid concentrations. These concentrations may exceed free systemic exposure achievable from ordinary oral Echinacea or food intake, especially after first-pass and microbial metabolism. Low-micromolar effects such as 5 μM otoprotection in zebrafish are more pharmacologically plausible than high-micromolar cytotoxicity screens, but human-equivalent exposure remains uncertain. Clinical evidence status: Cancer: preclinical only; no adequate human cancer trials for isolated cichoric acid. Immune / respiratory use: human evidence exists for Echinacea preparations, but not as isolated cichoric acid attribution. Alzheimer’s disease: preclinical only, with cell and animal-model support but no validated human clinical efficacy. Regulatory/deployment status: listed as a natural-health-product ingredient name by Health Canada; not an approved anticancer or AD therapeutic. Cichoric Acid Mechanistic Profile
TSF legend: P: 0–30 min R: 30 min–3 hr G: >3 hr Alzheimer’s disease relevance: Cichoric acid has meaningful AD-preclinical relevance but no validated human AD clinical evidence. The main AD rationale is neuroinflammation and amyloid-pathology modulation rather than direct symptomatic cholinergic therapy. In animal and cellular AD models, cichoric acid has been reported to reduce Aβ burden, lower APP/BACE1 markers, improve synaptic-function markers, and activate antioxidant signaling. This supports an AD database sub-entry as preclinical / experimental, not as a clinically established intervention. AD mechanisms (ranked):
Clinical evidence status: AD evidence remains preclinical. No adequate human RCT evidence supports cichoric acid as an Alzheimer’s disease treatment. Translation constraints include oral exposure, blood-brain exposure, dose standardization, and uncertainty over whether whole-plant extracts reproduce isolated cichoric acid effects. Cichoric Acid Alzheimer’s Disease Mechanistic Profile
TSF legend: P: 0–30 min R: 30 min–3 hr G: >3 hr |
| Source: HalifaxProj(inhibit) |
| Type: |
| Cyclooxygenase-2 (COX-2) is an enzyme that plays a critical role in the conversion of arachidonic acid to prostaglandins, which are lipid compounds involved in various physiological processes, including inflammation, pain, and fever. COX-2 is an inducible enzyme, meaning its expression is typically low in normal tissues but can be upregulated in response to inflammatory stimuli, growth factors, and certain oncogenic signals. -Cyclooxygenase-2 (COX-2), the rate-limiting enzyme in prostaglandin biosynthesis, plays a key role in inflammation and circulatory homeostasis. -COX-2 is an inducible enzyme that is upregulated in response to pro-inflammatory signals, including cytokines (e.g., IL-1β, TNF-α) and growth factors. COX-2 is often overexpressed in various tumors, including colorectal, breast, lung, and prostate cancers. The prostaglandins produced by COX-2, particularly prostaglandin E2 (PGE2), have several effects that can facilitate cancer progression: Cell Proliferation: PGE2 can promote the proliferation of cancer cells by activating signaling pathways such as the PI3K/Akt and MAPK pathways. Nonselective NSAIDs, such as aspirin and ibuprofen, inhibit both COX-1 and COX-2. Epidemiological studies have suggested that regular use of NSAIDs may reduce the risk of certain cancers, particularly colorectal cancer. Drugs specifically targeting COX-2, such as celecoxib, have been developed. COX-2 and xanthine oxidase are ROS-producing pro-oxidant enzymes that contribute to inflammation. Elevated COX‑2 levels, often found in inflammatory conditions or certain types of cancers, can contribute to increased production of ROS. |
| 6625- | Cic, | Ech, | Chicoric acid supplementation prevents systemic inflammation-induced memory impairment and amyloidogenesis via inhibition of NF-κB |
| - | in-vivo, | NA, | NA |
| 6626- | Cic, | Ech, | Chicoric Acid Ameliorated Beta-Amyloid Pathology and Enhanced Expression of Synaptic-Function-Related Markers via L1CAM in Alzheimer’s Disease Models |
| - | in-vivo, | Nor, | NA |
| 6632- | Cic, | Chicoric Acid Ameliorates Lipopolysaccharide-Induced Oxidative Stress via Promoting the Keap1/Nrf2 Transcriptional Signaling Pathway in BV-2 Microglial Cells and Mouse Brain |
| - | vitro+vivo, | Nor, | NA |
Query results interpretion may depend on "conditions" listed in the research papers. Such Conditions may include : -low or high Dose -format for product, such as nano of lipid formations -different cell line effects -synergies with other products -if effect was for normal or cancerous cells
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