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| Glycolysis is a metabolic pathway that converts glucose into pyruvate, producing a small amount of ATP (energy) in the process. It is a fundamental process for cellular energy production and occurs in the cytoplasm of cells. In normal cells, glycolysis is tightly regulated and is followed by aerobic respiration in the presence of oxygen, which allows for the efficient production of ATP. In cancer cells, however, glycolysis is often upregulated, even in the presence of oxygen. This phenomenon is known as the Warburg Mutations in oncogenes (like MYC) and tumor suppressor genes (like TP53) can alter metabolic pathways, promoting glycolysis and other anabolic processes that support cell growth.effect. Acidosis: The increased production of lactate from glycolysis can lead to an acidic microenvironment, which may promote tumor invasion and suppress immune responses. Glycolysis is a hallmark of malignancy transformation in solid tumor, and LDH is the key enzyme involved in glycolysis. Pathways: -GLUTs, HK2, PFK, PK, PKM2, LDH, LDHA, PI3K/AKT/mTOR, AMPK, HIF-1a, c-MYC, p53, SIRT6, HSP90α, GAPDH, HBT, PPP, Lactate Metabolism, ALDO Natural products targeting glycolytic signaling pathways https://pmc.ncbi.nlm.nih.gov/articles/PMC9631946/ Alkaloids: -Berberine, Worenine, Sinomenine, NK007, Tetrandrine, N-methylhermeanthidine chloride, Dauricine, Oxymatrine, Matrine, Cryptolepine Flavonoids: -Oroxyline A, Apigenin, Kaempferol, Quercetin, Wogonin, Baicalein, Chrysin, Genistein, Cardamonin, Phloretin, Morusin, Bavachinin, 4-O-methylalpinumisofavone, Glabridin, Icaritin, LicA, Naringin, IVT, Proanthocyanidin B2, Scutellarin, Hesperidin, Silibinin, Catechin, EGCG, EGC, Xanthohumol. Non-flavonoid phenolic compounds: Curcumin, Resveratrol, Gossypol, Tannic acid. Terpenoids: -Cantharidin, Dihydroartemisinin, Oleanolic acid, Jolkinolide B, Cynaropicrin, Ursolic Acid, Triptolie, Oridonin, Micheliolide, Betulinic Acid, Beta-escin, Limonin, Bruceine D, Prosapogenin A (PSA), Oleuropein, Dioscin. Quinones: -Thymoquinone, Lapachoi, Tan IIA, Emodine, Rhein, Shikonin, Hypericin Others: -Perillyl alcohol, HCA, Melatonin, Sulforaphane, Vitamin D3, Mycoepoxydiene, Methyl jasmonate, CK, Phsyciosporin, Gliotoxin, Graviola, Ginsenoside, Beta-Carotene. |
| In Alzheimer's disease (AD), cholinergic dysfunction (often with reduced acetylcholine tone and impaired choline metabolism) is linked with cortical dysfunction, memory deficit, abnormal cerebral blood flow, task learning difficulty, sleep-cycle disruption, and neurodevelopmental effects (context-dependent). CORE HALLMARKS / HIGH-CONFIDENCE AXES: - tau and Aβ, their accumulation in AD brains is known to be a major hallmark. In AD, PP2A↓ activity is decreased (reported), contributing to hyperphosphorylated tau accumulation. SIRT-1↓ levels in AD brains are associated with accumulation of Aβ and tau (reported). - glucose metabolism↓ (brain glucose hypometabolism) occurs in AD long before significant clinical signs in many cohorts/models (reported). - Neuroinflammation / lipid mediator tone (reported): 5-LOX↑ and PGE2↑ (model-/region-dependent). - Synaptic vulnerability (reported): PSD95↓ in hippocampus and cortex; restoring PSD95 shows cognitive benefits in models. - Clearance/transport imbalance (reported): IDE↓, NEP↓, LRP1↓, and AEP↑ protein levels in AD brains (reported). COMMONLY REPORTED DIRECTIONAL CHANGES (model/region/compartment dependent): - Monoamines (reported): concentrations of 5-HTP↓, 5-HT(seratonin)↓, and 5-HIAA↓ are lower in Alzheimer's patients (varies by region/study). - Cholinergic system (clinical target): reduction in ACh↓ production; ChAT↓ activity reduced (synthesizes ACh). - Four key enzymes frequently targeted in AD symptom/adjunct strategies: AChE, BChE, MAOA, MAOB (objective inhibit). - Neurotrophic tone (reported): BDNF↓ in key regions. - Stress can decrease expression of brain-derived neurotrophic factor (BDNF). - Kinase/protease stress (reported): CDK5↑ hyperactivation; calpain↑ overactivated by increased intracellular Ca²⁺ → p-tau and aggregation. - Aβ-linked synaptic regulator (reported): STEP↑ upregulated largely due to Aβ oligomer accumulation. - α-secretase axis (reported): ADAM10↓ downregulated in AD brains. - Metabolic cofactors (reported): ALC↓ (ALCAR); Homocarnosine↓ (CSF declines with age); possible low Taurine↓ (age-related + dementia reports). - Ion/glutamate handling (reported): impaired glutamate clearance + depressed Na+/K+ ATPase → cellular ion imbalance risk. - Aging reduces NAD⁺↓ (in AD depletion may be more severe). - Mitochondrial capacity axis (reported): PGC-1↓ decreased in Alzheimer’s brains. - Innate immune DNA-sensing axis (animal): cGAS–STING↑ elevation observed in AD mice and normalized by NR treatment. - Vascular/structure (reported): a profound change in BBB permeability; progressive brain shrinkage (atrophy). - Glycation axis (reported): AGEs↑ and RAGE↑ expression. - cerebrospinal fluid (CSF) TMAO is higher in individuals with MCI and AD dementia compared to cognitively-unimpaired individuals. (gut microbes enzymatically generate trimethylamine (TMA) from choline or l-carnitine). HOMOCYSTEINE / B-VITAMIN AXIS: - Raised plasma total homocysteine (tHcy)↑ associated with cognitive impairment, AD, or vascular dementia (epidemiology). - Homocysteine can build up if vitamin B6, B12, or folate levels are low. - Homocysteine and B-vitamin in Cognitive Impairment (VITACOG) study. - Vit B6 might be an important B vitamin (often discussed along with B12 and folate). - Thiamine↓ deficiency produces a cholinergic deficit (well-aligned with AD features). - Decreased thiamine (B1) in AD may exacerbate Aβ deposition, tau hyperphosphorylation, and oxidative stress (reported). MICRONUTRIENTS / CAROTENOIDS (reported; compartment-dependent): - vitamin A↓ and β-carotene↓ lower in some AD cohorts; excess retinol may contribute to osteoporosis risk. - Diminished circulating vitamin E↓ reported in AD. - Vitamin B5↓ in multiple brain regions (reported). - Trace elements: patients with AD reported lower serum Se, Cu, and Zn↓ (serum findings vary by study). - Brain metals: some studies report higher brain copper↑ and iron↑ in specific regions/structures; compartment and region matter. Rosmarinic acid reported to reduce copper-induced neurotoxicity in vitro/in vivo and may interfere with amyloid–copper interactions (preclinical). - SAMe↓ concentrations in CSF reported in AD. - MPOD often reduced in AD patients. - AD brains reported lower levels of lutein↓, zeaxanthin↓, anhydrolutein↓, (VitA)retinol↓, lycopene↓, alpha-tocopherol↓. RISK CONTEXT: - Apolipoprotein E4 (ApoE4) genotype is the strongest known genetic risk factor for late-onset AD. - One copy of ApoE4: ~3–4× increased risk (range varies by cohort). - Two copies: ~8–12× increased risk (range varies). - VitK lower in circulating blood of APOE4 carriers (reported). - Type 2 diabetes, traumatic brain injury, stroke, diet, and above all, aging is the number ONE risk factor. Treatments / Strategy Targets (high-level): - Early intervention tends to have a greater positive effect than interventions during middle or late stages. - BOLD fMRI imaging can be used to observe brain activity via blood oxygen/flow changes. - Reduce ROS and inflammation in the brain (context-dependent; avoid over-suppressing adaptive signaling). - Inhibiting acetylcholinesterase (AChE) (which breaks down ACh), e.g., donepezil, rivastigmine. - Natural AChE inhibitors include: Berberine, Luteolin, Crocetin(saffron), Querctin, TQ - Natural AChE inhibitors in database (check BBB pass potential). - MAOB inhibitors, APP inhibitors, PGE2 inhibitors, NLRP3 inhibitors, BACE inhibitors - BDNF activators, PSD95 activator - STEP, ADAM10 - Diets with an adequate ratio (5:1) of omega-6:3 (Mediterranean diet). - Vitamins B1, B6, B12, B9 (folic acid) and D, choline, iron and iodine exert neuroprotective effects (general nutrition framing). - Antioxidants (vitamins C, E, A, zinc, selenium, lutein and zeaxanthin). - Fiber may promote gut microbiome diversity influencing brain health. - Supplementing with NAD⁺ precursors (NR or NMN) improves cognition and reduces amyloid/tau pathologies in AD mice (animal evidence). - "It is advisable to consume diets with an adequate ratio (5:1) of omega-6:3 fatty acids (Mediterranean diet) ... antioxidants ... role in oxidative stress ... cognition." Nutrition Strategies - Reduction of cognitive decline may be achieved by following a healthy dietary pattern limiting added sugars while maximizing fish, fruits, vegetables, nuts, seeds. SeNPs may also be useful as a Drug Delivery System. Related Pathways to research in this database (products that modulate them): - neuroprotective, cognitive, memory - Aβ aggregation, Tau↓, AChE↓, ACh↑, ChAT↑, acetyl-CoA↑, BDNF↑, BACE↓, NLRP3↓, PSD95↑, PGE2↓, homoC↓ - Increasing AntiOxidants: Catalase↑, GSH↑, SOD↑, HO-1↑, to decrease ROS↓ - Lower Inflammation: TNF-α↓, IL1β↓, IL6↓ Natural Products that may benefit AD. -Some key pathways are highlighted in RED in the following links Acetyl-L-carnitine, ALA, Apigenin, Anthocyanins Blueberrys, Aromatherapy, Artemisinin, Ashwagandha, β-carotene(vitamin A), Bacopa monnieri, Baicalein, Baicalin, Berberine, Betulinic acid, Boron, Boswellia (frankincense), Caffeic acid, Caffeine, Capsaicin, Carnosine, Carnosic acid, Chlorogenic acid, Choline (note U shaped dose curve-target 350mg/day), Chrysin, Cinnamon, CoQ10, Crocetin, Curcumin, dietMed, dietMet, dietSTF, EGCG, Ellagic acid, Exercise, Ferulic Acid, Fisetin, Flav, FLS, Folic Acid (5-MTHF, L-methylfolate)-reduce homocysteine, Galantamine, Ginger, Ginkgo biloba, Ginseng, Honokiol, Huperzine A, hydrogen gas, Lecithin, Lutein, Luteolin, Lycopene, M-Blu, Moringa oleifera, Mushroom Lion’s Mane, MSM, MCToil, NAD, Naringenin, PEMF, Piperine, Phenylbutyrate, Phosphatidylserine, Piperlongumine, Potassium, probiotics, Propolis, Pterostilbene, Quercetin, Resveratrol, Rivastigmine, Rosmaric Acid(reduce copper-induced neurotoxicity), Rutin, Safflower yellow, Sage, SAMe, selenium, Serotonin, Shankhpushpi, Shikonin, Shilajit/Fulvic Acid, silicon(reduce Alum bioavialability), Silymarin (Milk Thistle) silibinin, Sulforaphane, Taurine, TQ, Ursolic Acid Vitamin B1, Vitamin B2, Vitamin B3, Vitamin B5, Vitamin B6, Vitamin B12, Vitamin E, Vitamin D, Vitamin K2 Zeaxanthin, zinc, Aluminium has a negative impact on cognition but silicon can decrease Alumunium bioavailability, and Vitamin K2 may provide some protection. Example So does RMF Brain Energy Systems Matrix (AD)Tier 1–2 as “core metabolic cofactors / redox pools”Tier 4 as “alternative fuels / bypass strategies” Tier 5–6 as “capacity + delivery constraints” (often explains why supplements don’t translate)
TSF (Time-Scale Flag): P = 0–30 min, R = 30 min–3 hr, G = >3 hr (adaptation/phenotype). Evidence: "Strong (human)" = consistent clinical/epidemiologic support; "Moderate" = mixed but plausible human signals; "Emerging" = early-stage human; "Mechanistic" = preclinical/biochemical rationale. |
| 3443- | ALA, | Molecular and Therapeutic Insights of Alpha-Lipoic Acid as a Potential Molecule for Disease Prevention |
| - | Review, | Var, | NA | - | Review, | AD, | NA |
| 3869- | Carno, | Carnosine, Small but Mighty—Prospect of Use as Functional Ingredient for Functional Food Formulation |
| - | Review, | AD, | NA | - | Review, | Stroke, | NA |
| 6002- | CGA, | Chlorogenic Acid: A Systematic Review on the Biological Functions, Mechanistic Actions, and Therapeutic Potentials |
| - | Review, | Var, | NA | - | Review, | Diabetic, | NA | - | Review, | AD, | NA | - | Review, | Park, | NA | - | Review, | Stroke, | NA |
| 2545- | M-Blu, | Reversing the Warburg Effect as a Treatment for Glioblastoma |
| - | in-vitro, | GBM, | U87MG | - | NA, | AD, | NA | - | in-vitro, | GBM, | A172 | - | in-vitro, | GBM, | T98G |
| 2540- | M-Blu, | Alternative mitochondrial electron transfer for the treatment of neurodegenerative diseases and cancers: Methylene blue connects the dots |
| - | Review, | Var, | NA | - | Review, | AD, | NA |
| 3374- | QC, | Therapeutic effects of quercetin in oral cancer therapy: a systematic review of preclinical evidence focused on oxidative damage, apoptosis and anti-metastasis |
| - | Review, | Oral, | NA | - | Review, | AD, | NA |
| 3935- | RT, | Sodium rutin ameliorates Alzheimer's disease-like pathology by enhancing microglial amyloid-β clearance |
| - | in-vivo, | AD, | NA |
| 1484- | SFN, | Sulforaphane’s Multifaceted Potential: From Neuroprotection to Anticancer Action |
| - | Review, | Var, | NA | - | Review, | AD, | 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
Filter Conditions: Pro/AntiFlg:% IllCat:% CanType:38 Cells:% prod#:% Target#:129 State#:% Dir#:1
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