Database Query Results : Lycopene, , neuroP

Lyco, Lycopene: Click to Expand ⟱
Features:
Lycopene is a naturally occurring carotenoid found predominantly in tomatoes and other red fruits and vegetables.

Antioxidant Properties:
-Lycopene is a powerful antioxidant. It helps neutralize free radicals, which can reduce oxidative stress—a factor implicated in cancer development. Possible concern about interfering with chemotherapy and radiation therapy. However this review disagrees.
Inflammation Reduction:
-Some studies suggest that lycopene may help lower levels of inflammation, another process linked to cancer progression

At supraphysiological or extremely high concentrations, lycopene may have the potential to switch from an antioxidant to a prooxidant role
-The prooxidant effect of lycopene has been observed under conditions of high oxygen tension. In vitro studies have suggested that in environments with elevated oxygen levels, lycopene might promote rather than neutralize the production of reactive oxygen species (ROS).
-The presence of metal ions (such as iron or copper) in the environment can catalyze reactions where antioxidants, including lycopene, contribute to oxidative processes. These metals can interact with lycopene, potentially leading to the formation of radicals.

The mevalonate pathway produces cholesterol and a variety of isoprenoids, which are important for maintaining cell membrane integrity, protein prenylation, and other essential cellular functions.
-One of the primary enzymes in this pathway is HMG-CoA reductase (3-hydroxy-3-methylglutaryl-coenzyme A reductase), which is the target of statin drugs used for lowering cholesterol. Some studies suggest that lycopene might downregulate the activity of HMG-CoA reductase or other enzymes in the mevalonate pathway. By doing so, lycopene could potentially reduce the synthesis of cholesterol and isoprenoids that are necessary for rapid cell proliferation—an especially relevant aspect in cancer cells.

Lycopene typically used in a 100mg/day range for cancer (inhibition of the the Melavonate Pathway)
-also has antiplatelet aggregation capability.

-Note half-life 16–20 days.
BioAv Heat processing, especially when combined with a small amount of fat, significantly enhances lycopene’s bioaccessibility and absorption. (20% under optimal conditions)
Pathways:
- ROS usually goes down, but may go up or down depending on dose and environment. Lycopene may also be modified to be a "oxdiative product" which may change the behaviour.
- Raises AntiOxidant defense in Normal Cells: ROS↓, NRF2↑, SOD↑, GSH↑, Catalase↑,
- lowers Inflammation : NF-kB↓, COX2↓, p38↓, Pro-Inflammatory Cytokines : NLRP3↓, IL-1β↓, TNF-α↓, IL-6↓, IL-8↓
- inhibit Growth/Metastases : EMT↓, MMPs↓, MMP9↓, IGF-1↓, uPA↓, VEGF↓, ROCK1↓, FAK↓, RhoA↓, NF-κB↓, ERK↓
- reactivate genes thereby inhibiting cancer cell growth : EZH2↓, P53↑, Sp proteins↓,
- cause Cell cycle arrest : TumCCA↑, cyclin D1↓, cyclin E↓, CDK2↓, CDK4↓,
- inhibits Migration/Invasion : TumCMig↓, TumCI↓, TNF-α↓, FAK↓, ERK↓, EMT↓,
- inhibits angiogenesis↓ : VEGF↓, HIF-1α↓, Integrins↓,
- Others: PI3K↓, AKT↓, JAK↓, STAT↓, Wnt↓, β-catenin↓, AMPK, ERK↓, JNK, - SREBP (related to cholesterol).
- Synergies: chemo-sensitization, chemoProtective, RadioSensitizer, RadioProtective, Others(review target notes), Neuroprotective, Cognitive, Renoprotection, Hepatoprotective, CardioProtective,

- Selectivity: Cancer Cells vs Normal Cells


neuroP, neuroprotective: Click to Expand ⟱
Source:
Type:
Neuroprotective refers to the ability of a substance, intervention, or strategy to preserve the structure and function of nerve cells (neurons) against injury or degeneration.
-While cancer and neurodegenerative processes might seem distinct, there is significant overlap in terms of treatment-related neurotoxicity, shared molecular mechanisms, and the potential for therapies that provide neuroprotection during cancer treatment.
Scientific Papers found: Click to Expand⟱
4228- Lyco,    A review for the pharmacological effect of lycopene in central nervous system disorders
- Review, AD, NA - Review, Park, NA
*cognitive↑, Lycopene also improves cognition and memory ability of rodents in different pathological conditions, such as diabetes, colchicine exposure, high-fat diet (HFD), and aging.
*memory↑,
*Inflam↓, inhibition of oxidative stress and neuroinflammation, inhibition of neuronal apoptosis, and restoration of mitochondrial function have been shown to mediate the neuroprotective effects of lycopene.
*Apoptosis↓,
*ROS↓,
*neuroP↑,
*NF-kB↓, inhibition of nuclear factor-κB (NF-κB) and c-Jun N-terminal kinase (JNK), activation of the nuclear factor erythroid 2-related factor (Nrf2) and brain-derived neurotrophic factor (BDNF) signaling, and restoration of intracellular Ca2+ homeostasis,
*JNK↓,
*NRF2↑,
*BDNF↑,
*MDA↓, 8 weeks of lycopene treatment (5 mg/kg) has been shown to reverse malondialdehyde (MDA) increase and glutathione peroxidase (GSH-Px) decrease in serum in tau transgenic mice expressing P301 L mutation
*GPx↑,

4780- Lyco,    Potential inhibitory effect of lycopene on prostate cancer
- Review, Pca, NA
TumCP↓, Lycopene suppress the progression and proliferation
TumCCA↑, Lycopene has been found to effectively suppress the progression and proliferation, arrest in-cell cycle, and induce apoptosis of prostate cancer cells in both in-vivo and in-vitro conditions.
Apoptosis↑,
*neuroP↑, the neuro-protective effect of lycopene, mediates the signaling pathways, by inhibiting NF-κB (nuclear factor-κB) and JNK protein (c-Jun N-terminal kinase), and activating Nrf2 (Nuclear factor erythroid 2-related factor 2) and BDNF (
*NF-kB↓,
*JNK↓,
*NRF2↑,
*BDNF↑,
*Ca+2↝, as well as keeping homeostasis by restoring intracellular Ca2+
*antiOx↑, most powerful and natural antioxidants, and its role in preventing prostate cancer.
*AntiCan↑,
*Inflam↓, Anti-inflammatory properties of lycopene depends on time, and it has been found to be through the decrease of inflammatory cytokines (i.e. IL1, IL6, IL8 and tumor necrosis factor-α (TNF-α)
*IL1↓,
*IL6↓,
*IL8↓,
*TNF-α↓,
NF-kB↓, lycopene increased the expression of BCO2 enzyme in an androgen-sensitive cell line that prevented cancer cell proliferation and reduced the NF-κB activity
DNAdam↓, 20 and 50 μM doses of lycopene had an effect on PC3 and DU145 cell lines in inducing apoptosis with DNA damages, and preventing cell growth and colony formation
PSA↓, lycopene twice a day for 3 weeks, showed that lycopene decreases the risk and growth of prostate cancer cells, and also a decrease in the level of PSA,
P53↓, down-regulation of p53, Cyclin-D1, and Nrf-2 have occurred after the incubation of prostate cancer cells with the lycopene received patient’s sera in comparison with placebo
cycD1↓,
NRF2↓,
Akt2↓, treatment with lycopene in PC3 cancer cell lines was associated with down-regulation of AKT2 [
PPARγ↓, Another anti-proliferative effect of lycopene was done by increasing PPARγ-LXRα-ABCA1signaling molecules in protein and mRNA level

4229- Lyco,    Implicating the role of lycopene in restoration of mitochondrial enzymes and BDNF levels in β-amyloid induced Alzheimer׳s disease
- in-vivo, AD, NA
*antiOx↑, beneficial therapeutic effects, which include anti-oxidant, neuro-protective and anti-cancer effects
*neuroP↑,
*AntiCan↑,
*memory↑, Chronic administration of lycopene resulted in an improvement in memory retention, attenuation of mitochondrial-oxidative damage, reduced neuro-inflammation and restoration of BDNF level in β-A1-42 treated rats.
*ROS↓,
*BDNF↑,
*cognitive↑, lycopene helps to protect β-A1-42 induced cognitive dysfunction and modulates amyloidogenesis.

4784- Lyco,    Protective effects of lycopene in cancer, cardiovascular, and neurodegenerative diseases: An update on epidemiological and mechanistic perspectives
- Review, Diabetic, NA - Review, CardioV, NA
*antiOx↑, Owing to its potent antioxidant properties, lycopene can potentially alleviate enhanced levels of proinflammatory mediators (e.g., proinflammatory cytokines IL-8, -6, and -1, and oxidized phospholipids) and prevent NF-κB activation
*IL8↓,
*IL6↓,
*IL1↓,
*NF-kB↓,
Inflam↓, graphical abstract
cycD1↓,
MMP2↓,
MMP9↓,
Bcl-2↓,
NF-kB↓,
*Nrf1↑, normal cells
*antiOx↑,
*BDNF↑,
*neuroP↑,
*cardioP↑,
ROS↑, i) enhanced oxidative stress due to prooxidant activities of lycopene under circumstances of tumor cell
Dose↝, There are no known adverse effects from low (12 mg/day) to very high (150 mg/day) intake of dietary or formulated lycopene in a healthy population

3532- Lyco,    Lycopene alleviates oxidative stress via the PI3K/Akt/Nrf2pathway in a cell model of Alzheimer’s disease
- in-vitro, AD, NA
*ROS↓, Lycopene alleviated OS and apoptosis, activated the PI3K/Akt/Nrf2 signaling pathway, upregulated antioxidant and antiapoptotic proteins and downregulated proapoptotic proteins.
*PI3K↑,
*Akt↑,
*NRF2↑,
*antiOx↑,
*Aβ↓, Lycopene possibly prevents Aβ-induced damage by activating the PI3K/Akt/Nrf2 signaling pathway and reducing the expression of BACE in M146L cells.
*Apoptosis↓, Lycopene alleviates apoptosis in M146L cells
*neuroP↑, lycopene shows the neuroprotective effects of antioxidative damage and antiapoptotic by reducing the phosphorylation of PI3K/Akt

4789- Lyco,    Inhibitory Effect of Lycopene on Amyloid-β-Induced Apoptosis in Neuronal Cells
- in-vitro, AD, SH-SY5Y
*antiOx↑, Lycopene is an antioxidant protecting from oxidative stress-induced cell damage
*ROS↓, Lycopene inhibited apoptosis by reducing ROS, and by inhibiting mitochondrial dysfunction and NF-κB-target gene Nucling expression in neuronal cells.
*NF-kB↓,
*neuroP↑, Lycopene may be beneficial for preventing oxidative stress-mediated neuronal death in patients with neurodegeneration.
*MMP↓, As shown in Figure 3C, amyloid-β increased the ratio of green to red fluorescence in the cells, which reflects a decrease in MMP in amyloid β-stimulated cells
*mtDam↓, Lycopene suppressed decrease in OCR in amyloid-β-stimulated cell, suggesting that lycopene prevents mitochondrial damage induced by amyloid-β in the cells.
*OCR↓, In the present study, lycopene significantly inhibited amyloid-β-induced mitochondrial dysfunction, which was proven by its protective effect in reducing both MMP and OCR.

4788- Lyco,    Lycopene as a potential anticancer agent: Current evidence on synergism, drug delivery systems and epidemiology (Review)
- Review, Var, NA
AntiCan↑, It may be associated with a reduction in the morbidity and mortality of several types of cancer, making it a prom‑ ising anticancer agent
ChemoSen↑, present review summarizes the synergistic effects of lycopene as a dietary supplement with other chemotherapy drugs or nutrients, for the enhancement of anticancer effects or the reduction of side effects from chemotherapy drugs.
chemoP↑,
Dose↝, Shao and Hathcock (20) proposed a 75 mg/day intake as the upper limit of lycopene for supplements, as no adverse effects were reported from continuous administration of 75 mg/day lycopene in a 4‑week clinical study
BioAv↑, Thermal processing of tomato products can cause changes in the structure of lycopene to shift and yield cis‑isomers in the product and this form is more bioavailable
BioAv↑, The presence of fat in food also helps enhance the absorption of lycopene (40) and its absorption is influenced by the amount of ingested fat, and the type and emulsification of dietary fat
BioAv↓, avoid the consumption of lycopene concurrently with high dietary fiber, as several types of dietary fiber (e.g. pectin, guar, alginate, etc.) are associated with lower bioavailability of lycopene
cardioP↑, figure 2
AntiDiabetic↑,
hepatoP↑,
neuroP↑,
MAPK↓, 2 mg/kg; 5 mg/kg Inhibition of MAPK signaling pathway (48) and decreased MMP‑2 and MMP‑9 activities through the activation of NM23‑H1, TIMP‑1 and TIMP‑2 expression.
MMP2↓,
MMP9↓,
TIMP1↑,
TIMP2↑,

3528- Lyco,    The Importance of Antioxidant Activity for the Health-Promoting Effect of Lycopene
- Review, Nor, NA - Review, AD, NA - Review, Park, NA
*antiOx↑, the antioxidant effect of lycopene
*ROS↓, Lycopene has the ability to reduce reactive oxygen species (ROS) and eliminate singlet oxygen, nitrogen dioxide, hydroxyl radicals, and hydrogen peroxide
*BioAv↝, human body cannot synthesize lycopene. It must be supplied with the diet
*Half-Life↑, half-life of lycopene in human plasma is 12–33 days
*BioAv↓, bioavailability decreases with age and in the case of certain diseases
*BioAv↑, heat treatment process of food increases the bioavailability of lycopene
*cardioP↑, positive effect on cardiovascular diseases, including the regulation of blood lipid levels
*neuroP↑, beneficial effects in nervous system disorders, including neurodegenerative diseases such as Parkinson′s disease and Alzheimer′s disease
*H2O2↓, Lycopene has the ability to reduce reactive oxygen species (ROS) and eliminate singlet oxygen, nitrogen dioxide, hydroxyl radicals, and hydrogen peroxide
*VitC↑, ability to regenerate non-enzymatic antioxidants such as vitamin C and E.
*VitE↑,
*GPx↑, increase in cardiac GSH-Px activity and an increase in cardiac GSH levels
*GSH↑,
*MPO↓, also a decrease in the level of cardiac myeloperoxidase (MPO), cardiac H2O2, and a decrease in cardiac glutathione S transferase (GSH-ST) activity.
*GSTs↓,
*SOD↑, increasing the activity of GSH-Px and SOD in the liver
*NF-kB↓, reducing the expression of NF-κB mRNA in the heart
*IL1β↓, decreased the level of IL-1β and IL-6 and increased the level of anti-inflammatory IL-10 in the heart
*IL6↓,
*IL10↑,
*MAPK↓, inhibited the activation of the ROS-dependent pro-hypertrophic mitogen-activated protein kinase (MAPK) and protein kinase B (Akt) signaling pathways.
*Akt↓,
*COX2↓, decrease in the levels of pro-inflammatory mediators in heart: COX-2, TNF-α, IL-6, and IL-1β and an increase in the anti-inflammatory cardiac TGF-β1.
*TNF-α↓,
*TGF-β1↑,
*NO↓, reduced NO levels in heart and cardiac NOS activity
*GSR↑, increase in the level of cardiac and hepatic SOD, CAT, GSH, GPx, and glutathione reductase (GR)
*NRF2↑, It also activated nuclear factor-erythroid 2 related factor 2 (Nrf2). This affected the downstream expression of HO-1 [97].
*HO-1↑,
*TAC↑, Researchers observed an increase in the liver in TAC and GSH levels and an increase in GSH-Px and SOD activity
*Inflam↓, study showed that lycopene was anti-inflammatory
*BBB↑, Lycopene is a lipophilic compound, which makes it easier to penetrate the blood–brain barrier.
*neuroP↑, Lycopene had also a neuroprotective effect by restoring the balance of the NF-κB/Nrf2 pathway.
*memory↑, lycopene on LPS-induced neuroinflammation and oxidative stress in C57BL/6J mice. The tested carotenoid prevented memory loss

1713- Lyco,    Lycopene: A Potent Antioxidant with Multiple Health Benefits
- Review, Nor, NA
*antiOx↑, As one of the most potent antioxidants, its capacity to neutralise singlet oxygen is double that of ?-carotene, ten times greater than that of ?-tocopherol, and one hundred and twenty-five times more effective than glutathione
*ROS⇅, lycopene acts as an antioxidant in systems that produce singlet oxygen but behaves as a pro-oxidant in systems that create peroxide
*Dose↝, In low doses, it acts as an antioxidant, but at high doses, it acts as a pro-oxidant
*eff↑, In situation where there is an imbalance between antioxidant defences and ROS production, such as during inflammation or exposure to environmental toxins [91], lycopene may switch from its antioxidant role to a pro-oxidant role
*LDL↓, Wistar rats given a high-fat diet and 50mg/kg body weight of lycopene daily for 3mths had significant reductions in plasma total cholesterol, triglycerides, and lLDL levels but increased HDL cholesterol
*RenoP↑, shown to protect the kidney against chemically induced damage
*Inflam↓, evidence is plentiful demonstrating the anti-inflammatory effects of lycopene both in vitro and in vivo
neuroP↑, mice with Alzheimer's disease induced by ? amyloid, lycopene reduced oxidative stress, decreased neuronal loss, improved synaptic plasticity, and inhibited neuroinflammation
Rho↓, lycopene treatment was demonstrated to have the potential to mitigate vascular arteriosclerosis in allograft transplantation by inhibiting Rho-associated kinases

3268- Lyco,    Lycopene as a Natural Antioxidant Used to Prevent Human Health Disorders
- Review, AD, NA
*BioAv↓, Lycopene bioavailability can be decreased by ageing, and some of the pathological states, such as cardiovascular diseases (CVDs)
*AntiCan↑, For instance, it has been shown that a higher dietary intake and circulating concentration of lycopene have protective effects against prostate cancer (PCa), in a dose-dependent way
*ROCK1↓, It remarkably lessened the expression of ROCK1, Ki-67, ICAM-1 and ROCK2,
*Ki-67↓,
*ICAM-1↓,
*cardioP↑, Lycopene is a cardioprotective nutraceutical.
*antiOx↑, Lycopene is a well-known antioxidant.
*NQO1↑, Furthermore, lycopene supplementation improves mRNA expressions of the NQO-1 and HO-1 as antioxidant enzymes.
*HO-1↑,
*TNF-α↓, downregulate inflammatory cytokines (i.e., TNF-α, and IL-1β) in the hippocampus of the mice.
*IL22↓,
*NRF2↑, Lycopene decreased neuronal oxidative damage by activating Nrf2, as well as by inactivating NF-κB translocation in H2O2-related SH-SY5Y cell model
*NF-kB↓,
*MDA↓, significantly reduced the malondialdehyde (MDA)
*Catalase↑, Furthermore, it improved the catalase (CAT), superoxide dismutase (SOD), and GSH levels, and antioxidant capacity [109].
*SOD↑,
*GSH↑,
*cognitive↑, Lycopene administration considerably improved cognitive defects, noticeably reduced MDA levels and elevated GSH-Px activity, and remarkably reduced tau
*tau↓,
*hepatoP↑, Lycopene was also found to be effective against hepatotoxicity by acting as an antioxidant, regulating total glutathione (tGSH) and CAT concentrations
*MMP2↑, It also elevated MMP-2 down-regulation
*AST↓, lowering the liver enzymes levels, like aspartate transaminase (AST), alanine transaminase (ALT), LDL, free fatty acid, and MDA.
*ALAT↓,
*P450↑, Moreover, tomato powder has been shown to have a protective agent against alcohol-induced hepatic injury by inducing cytochrome p450 2E1
*DNAdam↓, lycopene decreased DNA damage
*ROS↓, It has been revealed that they inhibited ROS production, protected antioxidant enzymes, and reversed hepatotoxicity in rats’ liver
*neuroP↑, lycopene consumption relieved cognitive defects, age-related memory loss, neuronal damage, and synaptic dysfunction of the brain.
*memory↑,
*Ca+2↓, Lycopene suppressed the 4-AP-invoked release of glutamate and elevated intra-synaptosomal Ca2+ level.
*Dose↝, an in vivo study revealed that lycopene (6.5 mg/day) was effective against cancer in men [147]. However, lycopene dose should be increased up to 10 mg/day, in the case of advanced PCa.
*Dose↑, lycopene supplementation (15 mg/day, for 12 weeks) in an old aged population improved immune function through increasing natural killer cell activity by 28%
*Dose↝, Finally, according to different epidemiological studies, daily lycopene intake can be suggested to be 2 to 20 mg per day
*toxicity∅, A toxicological study on rats showed the no-observed-adverse-effect level at the highest examined dose (i.e., 1.0% in the diet)
PGE2↓, Lycopene doses of 0, 10, 20, and 30 µM were used to treat human colorectal cancer cell. Prostaglandin E2 (PGE2), and NO levels declined after lycopene administration,
CDK2↓, Treatment with lycopene reduced cell hyperproliferation induced by UVB and ultimately promoted apoptosis and reduced CDK2 and CDK4 complex in SKH-1 hairless mice
CDK4↓,
STAT3↓, lycopene reduced the STAT3 expression in ovarian tissues
NOX↓, (SK-Hep-1) cells and indicated a substantial reduction in NOX activity. Moreover, it inhibits the protein expression of NOX4, NOX4 mRNA and ROS intracellular amounts
NOX4↓,
ROS↓,
*SREBP1↓, Lycopene decreases the fatty acid synthase (FAS), sterol regulatory element-binding protein 1c (SREBP-1c), and Acetyl-CoA carboxylase (ACC1) expression in HFD mice.
*FASN↓,
*ACC↓,

3264- Lyco,    Pharmacological potentials of lycopene against aging and aging‐related disorders: A review
- Review, Var, NA - Review, AD, NA - Review, Stroke, NA
*antiOx↑, Anti‐oxidative mechanism of lycopene
*ROS↓, Lycopene inhibits ROS generation and subsequent oxidative stress by inducing antioxidant enzymes (SOD, CAT, GSH, GSH‐Px, and GST) and limiting MDA level and lipid peroxidation (LPO).
*SOD↑,
*Catalase↑,
*GSH↑,
*GSTs↑,
*MDA↓,
*lipid-P↓,
*NRF2↑, Lycopene also prevents ROS release by upregulating Nrf2‐mediated HO‐1 levels and inhibiting iNOS‐activated NO generation
*HO-1↑,
*iNOS↓,
*NO↓,
*TAC↑, upregulating total antioxidant capacity (TAC) and direct inhibition of 8‐OHdG, NOX4.
*NOX4↓,
*Inflam↓, Anti‐inflammatory mechanism of lycopene.
*IL1↓, IL‐1, IL‐6, IL‐8, IL‐1β, and TNF‐α release.
*IL6↓,
*IL8↓,
*IL1β↓,
*TNF-α↓,
*TLR2↓, prevents inflammation by inhibiting toll‐like receptors TLR2 and TLR4 and endothelial adhesion molecules VCAM1 and ICAM‐1.
*TLR4↓,
*VCAM-1↓,
*ICAM-1↓,
*STAT3↓, inhibiting STAT3, NF‐κB, ERK pathway, and IL‐6 and TNF‐α release.
*NF-kB↓,
*ERK↓,
*BP↓, Another clinical study demonstrated that consumption of raw tomato (200 g/day) could prevent type 2 diabetes‐associated cardiovascular diseases by lowering systolic and diastolic blood pressure, upregulating ApoA1, and downregulating ApoB levels
ROS↓, lycopene suppresses the metastasis of the SK‐HEP‐1 cell line by NOX‐4 mRNA expression inhibition and the reactive ROS intracellular activity inhibition
PGE2↓, Lycopene is also used to treat colorectal cancer cells in humans, and the introduction of lycopene decreases the prostaglandin E2 and nitric oxide levels
cardioP↑, Lycopene‐rich foods can be highly beneficial in preventing cardiovascular diseases as lycopene is a potential source of antioxidants
*neuroP↑, beneficial role of lycopene on aging‐related neurodegenerative disorders, such as Alzheimer's disease and Parkinson's disease, has been confirmed in both experimental and clinical trials
*creat↓, Several pre‐clinical studies reported that lycopene treatment significantly reduced serum urea and serum creatinine, as well as reversed various toxic chemical‐induced nephrotoxicity and oxidative damage by exhibiting excellent antioxidative properti
*RenoP↑,
*CRM↑, its potency in treating aging disorders and its role as a mimic of caloric restriction.


* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 11

Results for Effect on Cancer/Diseased Cells:
Akt2↓,1,   AntiCan↑,1,   AntiDiabetic↑,1,   Apoptosis↑,1,   Bcl-2↓,1,   BioAv↓,1,   BioAv↑,2,   cardioP↑,2,   CDK2↓,1,   CDK4↓,1,   chemoP↑,1,   ChemoSen↑,1,   cycD1↓,2,   DNAdam↓,1,   Dose↝,2,   hepatoP↑,1,   Inflam↓,1,   MAPK↓,1,   MMP2↓,2,   MMP9↓,2,   neuroP↑,2,   NF-kB↓,2,   NOX↓,1,   NOX4↓,1,   NRF2↓,1,   P53↓,1,   PGE2↓,2,   PPARγ↓,1,   PSA↓,1,   Rho↓,1,   ROS↓,2,   ROS↑,1,   STAT3↓,1,   TIMP1↑,1,   TIMP2↑,1,   TumCCA↑,1,   TumCP↓,1,  
Total Targets: 37

Results for Effect on Normal Cells:
ACC↓,1,   Akt↓,1,   Akt↑,1,   ALAT↓,1,   AntiCan↑,3,   antiOx↑,10,   Apoptosis↓,2,   AST↓,1,   Aβ↓,1,   BBB↑,1,   BDNF↑,4,   BioAv↓,2,   BioAv↑,1,   BioAv↝,1,   BP↓,1,   Ca+2↓,1,   Ca+2↝,1,   cardioP↑,3,   Catalase↑,2,   cognitive↑,3,   COX2↓,1,   creat↓,1,   CRM↑,1,   DNAdam↓,1,   Dose↑,1,   Dose↝,3,   eff↑,1,   ERK↓,1,   FASN↓,1,   GPx↑,2,   GSH↑,3,   GSR↑,1,   GSTs↓,1,   GSTs↑,1,   H2O2↓,1,   Half-Life↑,1,   hepatoP↑,1,   HO-1↑,3,   ICAM-1↓,2,   IL1↓,3,   IL10↑,1,   IL1β↓,2,   IL22↓,1,   IL6↓,4,   IL8↓,3,   Inflam↓,5,   iNOS↓,1,   JNK↓,2,   Ki-67↓,1,   LDL↓,1,   lipid-P↓,1,   MAPK↓,1,   MDA↓,3,   memory↑,4,   MMP↓,1,   MMP2↑,1,   MPO↓,1,   mtDam↓,1,   neuroP↑,10,   NF-kB↓,7,   NO↓,2,   NOX4↓,1,   NQO1↑,1,   Nrf1↑,1,   NRF2↑,6,   OCR↓,1,   P450↑,1,   PI3K↑,1,   RenoP↑,2,   ROCK1↓,1,   ROS↓,7,   ROS⇅,1,   SOD↑,3,   SREBP1↓,1,   STAT3↓,1,   TAC↑,2,   tau↓,1,   TGF-β1↑,1,   TLR2↓,1,   TLR4↓,1,   TNF-α↓,4,   toxicity∅,1,   VCAM-1↓,1,   VitC↑,1,   VitE↑,1,  
Total Targets: 85

Scientific Paper Hit Count for: neuroP, neuroprotective
11 Lycopene
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