Zerumbone exhibits anti-inflammatory effects by suppressing eicosanoid signaling: Evidence from LPS-induced peripheral blood leukocytes

Zerumbone, a sesquiterpene isolated from Zingiber zerumbet, has many bioactivities, exhibiting anti-inflammatory properties. However, the effect of zerumbone on the eicosanoid signaling pathway has yet to be examined. Here, we deciphered the anti-eicosanoid properties of zerumbone isolated from ginger. The molecular interaction between zerumbone and eicosanoid metabolizing enzymes (COX-2, 5-LOX, FLAP, and LTA4-hydrolase) and receptors (EP-4, BLT-1, and ICAM-1) along with NOS-2 were assessed using Auto-Dock 4.2 and visualized by chimera and Liggplot+ software. Further, the leukocytes were treated with zerumbone (1-20 μM) and activated using bacterial lipopolysaccharide (LPS-10 nM). The oxidative stress (OS) markers, antioxidant enzymes, and the eicosanoid pathway mediators such as COX-2, 5-LOX, BLT-1, and EP-4 were assessed. The molecular interaction of zerumbone with eicosanoids showed a higher binding affinity with mPGES-1, followed by NOS-2, FLAP, COX-2, LTA-4-hydrolase, and BLT-1. The concentration of 5 μM zerumbone effectively prevented the generation of reactive oxygen species (ROS) and nitric oxide (NO). Likewise, zerumbone significantly (p<0.05) inhibited COX-2, 5-LOX, NOS-2, EP-4, BLT-1, and ICAM-1 expression in LPS-induced peripheral blood leukocytes from rats. Further, the zerumbone treatment on the human PBMCs activated with LPS showed significant inhibition in the expression of ICAM1, COX-2, 5-LOX, and the generation of inflammatory cytokines compared to the control. Overall, the data presented infers that zerumbone positively modulates critical enzymes and receptors of eicosanoids in leukocytes activated with lipopolysaccharides. Thus, zerumbone can be a potential anti-eicosanoid drug in managing inflammation.

Nutritional status among earthquake survivors: a systematic review and meta-analysis

OBJECTIVE

Earthquakes, as one of the most devastating natural disasters, have many consequences, including the collapse of buildings where food is produced, stored, and distributed, which can ensue with numerous nutritional problems. This study was to investigate the nutritional status of earthquake survivors.

STUDY DESIGN

This was a systematic review and meta-analysis study.

METHODS

The present review was conducted according to the PRISMA guideline. The data were collected by searching the data resources of PubMed, Scopus, Web of Science, Science Direct, Google Scholar, MagIran, and Scientific Information Database. Meta-analysis was conducted using the random effects model, and the I2 index was used to assess heterogeneity among studies. Publication bias was assessed using Begg's test.

RESULTS

In this study, 342 studies were identified in the primary literature search, and after removing duplicates, 14 of which were finally selected for meta-analysis. Based on the results of the meta-analysis, the overall prevalence was obtained: 4.19% for wasting, 16.78% for stunting, 12.59% for underweight, and 28.06% for anemia after the earthquake.

CONCLUSION

The results indicated that earthquake survivors are exposed to malnutrition. Therefore, it is recommended that adequate food and nutritional supplements are provided to all earthquake survivors.

Increased glucose availability sensitizes pancreatic cancer to chemotherapy

Pancreatic Ductal Adenocarcinoma (PDAC) is highly resistant to chemotherapy. Effective alternative therapies have yet to emerge, as chemotherapy remains the best available systemic treatment. However, the discovery of safe and available adjuncts to enhance chemotherapeutic efficacy can still improve survival outcomes. We show that a hyperglycemic state substantially enhances the efficacy of conventional single- and multi-agent chemotherapy regimens against PDAC. Molecular analyses of tumors exposed to high glucose levels reveal that the expression of GCLC (glutamate-cysteine ligase catalytic subunit), a key component of glutathione biosynthesis, is diminished, which in turn augments oxidative anti-tumor damage by chemotherapy. Inhibition of GCLC phenocopies the suppressive effect of forced hyperglycemia in mouse models of PDAC, while rescuing this pathway mitigates anti-tumor effects observed with chemotherapy and high glucose.

Abstract 4839: Chemotherapy alters mitochondrial metabolism in melanoma

Background: Advanced and metastatic melanoma carries significant mortality despite recent advances. Metabolic plasticity is a hallmark of cancer and an important resistance mechanism in the face of anti-neoplastic therapies. We sought to understand the effect of chemotherapy, Temozolomide (TMZ), on OXPHOS and TCA cycle metabolism in melanoma cell lines. By understanding these metabolic adaptations to chemotherapy, we hope to identify novel combination therapies.

Methods: A375 and SK-MEL-28 cell lines were used for all experiments. Cell viability assays were performed with 1500 cells per well, treated with TMZ and oligomycin or phenformin, and viability was assessed using PicoGreen dsDNA assay. Western blot was used with primary antibodies against TOM20 and Β-actin. LCMS metabolites were assessed by QTRAP triple quadrupole mass spectrometry coupled to a Prominence UFLC HPLC system. This assessed approximately 299 metabolites. Seahorse XFp miniextracellular analyzer was used to obtain OCR with and without TMZ exposure, and after sequential injections of oligomycin, FCCP, and rotenone with antimycin A. Mitochondrial assays included TMRE staining (membrane potential) and Mitotracker Green (mitochondrial mass).

Results: Metabolic profiles of melanoma cell lines change with exposure to chemotherapy. After melanoma cells are exposed to IC30 dose of TMZ, LCMS metabolomics revealed statistically significant increase in TCA cycle metabolites such as succinate, succinyl CoA, malate, oxaloacetate, isocitrate, alpha-ketoglutarate, and fumarate. Melanoma increases OXPHOS in the presence of chemotherapy. Mitochondrial mass, measured by Mitotracker, increased in response to TMZ exposure. We also found increased mitochondrial membrane potential and increased TOM20 expression after cells were treated with TMZ. Seahorse XF Cell Mito Stress Assay demonstrated increased oxygen consumption rate after exposure to TMZ. We then combined TMZ and two mitochondrial inhibitors, phenformin (complex I) and oligomycin (complex V). Combination of phenformin and TMZ was synergistic in cell viability assays as determined by Bliss equation. Oligomycin sensitized both cell lines to TMZ.

Discussion: We have shown that melanoma cells rely on mitochondrial function when exposed to TMZ by increasing levels of TCA cycle intermediates, increasing mitochondrial tropism, and increased expression of mitochondrial enzymes. This demonstrates a metabolic resistance mechanism in response to chemotherapy to promote melanoma cell survival. Finally, we exploit this adaptation by pharmacologic inhibition of mitochondrial electron transport chain (ETC) with phenformin and oligomycin A. This treatment was synergistic with conventional chemotherapy. Our findings point out that the ETC compartment of mitochondria could be a novel and readily available combination treatment strategy for patients with advanced and refractory melanoma.

Citation Format: Alexander W. Loftus, Mehrdad Zarei, Omid Hajihassani, Johnathan J. Hue, Hallie J. Graor, Ali Vaziri-Gohar, Jordan M. Winter, Luke D. Rothermel. Chemotherapy alters mitochondrial metabolism in melanoma. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 4839.

Abstract 3701: Targeting wild-type IDH1 enhances chemosensitivity in pancreatic cancer

Introduction: Pancreatic ductal adenocarcinoma (PDAC) is a leading cause of cancer mortality in the United States. The poor prognosis is in part due to development of chemotherapy resistance, despite improvements in multiagent regimens. Our previous work demonstrated that oxidative stress plays an important role in drug resistance. Wild-type isocitrate dehydrogenase 1 (IDH1) is an important enzyme that generates cytosolic NADPH to maintain redox homeostasis and protect cancer cells from oxidative damage. Additionally, we demonstrated that ivosidenib (AG-120), an FDA-approved mutant IDH1 inhibitor, is actually a potent inhibitor of wild-type IDH1, under low magnesium and nutrient levels that are present in the tumor microenvironment.

Methods: We evaluated IDH1 expression in PDAC using The Cancer Genome Atlas (TCGA). Cell viability was assessed by Trypan blue and PicoGreen in drug combination assays. Cellular reactive oxygen species (ROS) levels were determined by the DCFDA method. To further assess the therapeutic potential of AG-120 in combination with chemotherapy, tumor volume analyses were performed using patient-derived xenografts (PDX) in athymic nude mice, and survival studies were performed in C57BL/6J mice transplanted with orthotopic murine pancreatic cancer.

Results: Analysis of TCGA data indicated that IDH1 is overexpressed in pancreatic cancer tumors. Treatment of MiaPaca2 and Panc1 cancer cells with 5- fluorouracil (5-FU) induced expression of wild-type IDH1 in vitro. Short-term cell viability data demonstrated that targeting IDH1 with AG-120 when combined with DNA-damaging agents (5-FU, oxaliplatin) had a synergistic effect with a positive synergy score and Bliss score greater than 1. Additionally, we assessed long-term cell survival using colony formation assays, which yielded a dramatic reduction in cell survival for both Panc1 and MiaPaCa-2 cells when 5-FU was combined with AG-120, as compared to single-agent controls. Inhibiting IDH1 impairs the ability of pancreatic cancer cells to scavenge ROS levels, enhances chemotherapy-induced apoptosis in pancreatic cancer cells via ROS-mediated damage in vitro. Both PDX tumor volume studies and overall survival analyses revealed that the combination of these AG-120 and chemotherapy synergistically enhanced anti-tumor activity and doubled the survival benefits as compared to single-agent alone.

Conclusion: IDH1 plays a critical role in tumorigenesis and chemoresistance in pancreatic cancer. Our data demonstrate that IDH1 inhibition with AG-120 may enhance chemotherapy efficacy and represents an important area for future investigation in the form of clinical trials.

Citation Format: Mehrdad Zarei, Omid Hajihassani, Jonathan J. Hue, Hallie J. Graor, Arian Hajihassani, Alexander W. Loftus, Luke D. Rothermel, Jordan M. Winter. Targeting wild-type IDH1 enhances chemosensitivity in pancreatic cancer. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3701.

Targeting wild-type IDH1 enhances chemosensitivity in pancreatic cancer

Pancreatic cancer (PC) is one of the most aggressive types of cancer, with a five-year overall survival rate of 11% among all-comers. Current systemic therapeutic options are limited to cytotoxic chemotherapies which have limited clinical efficacy and are often associated with development of drug resistance. Analysis of The Cancer Genome Atlas showed that wild-type isocitrate dehydrogenase (wtIDH1) is overexpressed in pancreatic tumors. In this study, we focus on the potential roles of wtIDH1 in pancreatic cancer chemoresistance. We found that treatment of pancreatic cancer cells with chemotherapy induced expression of wtIDH1, and this serves as a key resistance factor. The enzyme is protective to cancer cells under chemotherapy-induced oxidative stress by producing NADPH and alpha-ketoglutarate to maintain redox balance and mitochondrial function. An FDA-approved mutant IDH1 inhibitor, ivosidenib (AG-120), is actually a potent wtDH1 inhibitor under a nutrient-deprived microenvironment, reflective of the pancreatic cancer microenvironment. Suppression of wtIDH1 impairs redox balance, results in increased ROS levels, and enhances chemotherapy induced apoptosis in pancreatic cancer vis ROS damage in vitro. In vivo experiments further revealed that inhibiting wtIDH1 enhances chemotherapy anti-tumor effects in patient-derived xenografts and murine models of pancreatic cancer. Pharmacologic wtIDH1 inhibition with ivosidenib represents an attractive option for combination therapies with cytotoxic chemotherapy for patients with pancreatic cancer. Based on these data, we have initiated phase Ib trial combining ivosidenib and multi-agent chemotherapy in patients with pancreatic cancer (NCT05209074).

Lactobacillus fermentum MCC2760 abrogate high-fat induced perturbations in the enterohepatic circulation of bile acids in rats

AIM

This study in hyperlipidemic rats elucidated the effect of Lactobacillus fermentum MCC2760 on intestinal bile acid (BA) uptake, hepatic BA synthesis, and enterohepatic BA transporters.

MAIN METHODS

Diets rich in saturated fatty acids [coconut oil (CO)] and omega-6 fatty acids [sunflower oil (SFO)] at 25 g fat/100 g diet were fed to rats with or without MCC2760 (10⁹ cells/kg body weight). After 60 days of feeding, intestinal BA uptake and expression of Asbt, Osta/b mRNA and protein, and hepatic expression of Ntcp, Bsep, Cyp7a1, Fxr, Shp, Lrh-1, and Hnf4a mRNA were measured. Hepatic expression of HMG-CoA reductase protein and its activity and total BAs in serum, liver, and feces were assessed.

KEY FINDINGS

Hyperlipidaemic groups (HF-CO and HF-SFO) had: 1) increased intestinal BA uptake, Asbt and Osta/b mRNA expression, and ASBT staining 2) increased BA in serum, 3) decreased hepatic expression of Ntcp, Bsep, and Cyp7a1 mRNA, and NTCP staining 4) increased activity of HMG-CoA reductase, 5) increased hepatic expression of Fxr and Shp mRNA, 6) decreased hepatic expression of Lrh-1 and Hnf4a mRNA, and 7) decreased BA in Feces when compared to their respective controls (N-CO and N-SFO) and experimental groups (HF-CO + LF and HF-SFO + LF). Immunostaining revealed increased intestinal Asbt and hepatic Ntcp protein expression in the HF-CO and HF-SFO groups compared to control and experimental groups.

SIGNIFICANCE

Incorporating probiotics like MCC2760 abrogated hyperlipidemia-induced changes in the intestinal uptake, hepatic synthesis, and enterohepatic transporters of BA in rats. Probiotic MCC2760 can be used to modulate lipid metabolism in high-fat-induced hyperlipidemic conditions.

Liver Endothelium Microenvironment Promotes HER3-mediated Cell Growth in Pancreatic Ductal Adenocarcinoma

~90% metastatic pancreatic ductal adenocarcinoma (mPDAC) occurs in the liver, and the 5-year survival rate for patients with mPDAC is only at 3%. The liver has a unique endothelial cell (EC)-rich microenvironment, and preclinical studies showed that ECs promote cancer cell survival pathways by secreting soluble factors in a paracrine fashion in other types of cancer. However, the effects of liver ECs on mPDAC have not been elucidated. In this study, we used primary liver ECs and determined that liver EC-secreted factors containing conditioned medium (CM) increased PDAC cell growth, compared to control CM from PDAC cells. Using an unbiased receptor tyrosine kinase array, we identified human epidermal growth factor receptor 3 (HER3, also known as ErbB3) as a key mediator of liver EC-induced growth in PDAC cells with HER3 expression (HER3 +ve). We found that EC-secreted neuregulins activated the HER3-AKT signaling axis, and that depleting neuregulins from EC CM or blocking HER3 with an antibody, seribantumab, attenuated EC-induced functions in HER3 +ve PDAC cells, but not in cells without HER3 expression. Furthermore, we determined that EC CM increased PDAC xenograft growth in vivo, and that seribantumab blocked EC-induced growth in xenografts with HER3 expression. These findings elucidated a paracrine role of liver ECs in promoting PDAC cell growth, and identified the HER3-AKT axis as a key mediator in EC-induced functions in HER3 +ve PDAC cells. As over 70% mPDAC express HER3, this study highlights the potential of using HER3-targeted therapies for treating patients with HER3 +ve mPDAC.

IDO1 Is a Therapeutic Target for Pancreatic Cancer-Associated Depression

Metabolites of tryptophan degradation are known to alter mood. Their effects have only been superficially examined in the context of pancreatic cancer. Herein, we study the role of indoleamine 2,3-dioxygenase 1 (IDO1), an enzyme important in the conversion of tryptophan to kynurenine, in a murine model of pancreatic cancer-associated depression. Behavioral tests (open field, forced swim, tail suspension, and elevated plus maze) and biochemical assays (LC-MS metabolomics) were used to characterize a depressive-phenotype in tumor-bearing mice (relative to non-tumor-bearing mice). In addition, we determine whether pharmacologic blockade of IDO1 affects mood in tumor-bearing mice. Immunocompetent mice bearing orthotopic pancreatic tumors exhibit depressive-like behavior relative to non-tumor-bearing mice. Pancreatic tumors strongly express IDO1. Consequently, serum kynurenine levels in tumor-bearing mice are elevated relative to non-tumor-bearing mice. Tumor-bearing mice treated with epacadostat, an IDO1 inhibitor, exhibited improved mood relative to mice receiving vehicle. There was a 95% reduction in serum kynurenine levels in mice receiving epacadostat relative to mice treated with vehicle. As confirmatory evidence of on-target activity, tumors of mice treated with epacadostat exhibited a compensatory increase in IDO1 protein levels. Escitalopram, an approved antidepressant, was ineffective at improving mood in tumor-bearing mice as measured by behavioral assays and did not affect kynurenine levels. Neither epacadostat, nor escitalopram, affected overall survival relative to vehicle. Mice with pancreatic cancer exhibit depressive-like behavior. Epacadostat was effective as an antidepressant for pancreatic cancer-associated depression in mice. These data offer a rationale to consider IDO1 inhibition as a therapeutic strategy to mitigate depressive symptoms in patients with pancreatic cancer.

Wild-type IDH1 inhibition enhances chemotherapy response in melanoma

BACKGROUND

Alternative treatment strategies in melanoma beyond immunotherapy and mutation-targeted therapy are urgently needed. Wild-type isocitrate dehydrogenase 1 (wtIDH1) has recently been implicated as a metabolic dependency in cancer. The enzyme protects cancer cells under metabolic stress, including nutrient limited conditions in the tumor microenvironment. Specifically, IDH1 generates NADPH to maintain redox homeostasis and produces α-ketoglutarate to support mitochondrial function through anaplerosis. Herein, the role of wtIDH1 in melanoma is further explored.

METHODS

The expression of wtIDH1 was determined by qRT-PCR, and Western blot in melanoma cell lines and the effect of wtIDH1 on metabolic reprogramming in melanoma was interrogated by LC-MS. The impact of wtIDH1 inhibition alone and in combination with chemotherapy was determined in cell culture and mouse melanoma models.

RESULTS

Melanoma patients express higher levels of the wtIDH1 enzyme compared to normal skin tissue, and elevated wtIDH1 expression portends poor patient survival. Knockdown of IDH1 by RNA interference inhibited cell proliferation and migration under low nutrient levels. Suppression of IDH1 expression in melanoma also decreased NADPH and glutathione levels, resulting in increased reactive oxygen species. An FDA-approved inhibitor of mutant IDH1, ivosidenib (AG-120), exhibited potent anti-wtIDH1 properties under low magnesium and nutrient levels, reflective of the tumor microenvironment in natura. Thus, similar findings were replicated in murine models of melanoma. In light of the impact of wtIDH1 inhibition on oxidative stress, enzyme blockade was synergistic with conventional anti-melanoma chemotherapy in pre-clinical models.

CONCLUSIONS

These results demonstrate the clinical potential of wtIDH1 inhibition as a novel and readily available combination treatment strategy for patients with advanced and refractory melanoma. Schematic shows increased wild-type IDH1 expression and activity as an adaptive response to metabolic stress induced by chemotherapy.

Prodromal depression and anxiety are associated with worse treatment compliance and survival among patients with pancreatic cancer

OBJECTIVE

To determine the frequency of depression or anxiety preceding a diagnosis of pancreatic cancer (PC). Further, to examine the association of PC-associated depression or anxiety with treatment compliance and survival.

METHODS

856 patients with PC from a single institution were identified using International Classification of Diseases (ICD) codes. For each case, two non-cancer age- and sex-matched controls were included. Dates of depression or anxiety diagnosis identified using ICD codes were compared to the date of PC diagnosis. The medical record was queried to further explore psychiatric symptoms. Multivariable analyses were performed to examine if prediagnosis depression or anxiety was associated with receipt of treatment or survival.

RESULTS

A greater proportion of patients with PC experienced depression or anxiety in the year preceding diagnosis than the overall frequency in controls (4.6% vs. 2.6%, p = 0.005) based on ICD codes. Patients with PC exhibited signs of prodromal depression or anxiety based on ICD codes, clinical documentation of psychiatric symptoms, or initiation of new psychiatric medications more often than controls (20.7% vs. 6.7%, p < 0.001). Prediagnosis depression or anxiety was associated with a reduced likelihood of receiving chemotherapy (OR = 0.58, p = 0.04). There was an associated decrease in overall survival among patients with metastatic disease who experienced depression or anxiety before PC diagnosis (HR = 1.32, p = 0.04).

CONCLUSIONS

The frequency of depression or anxiety among patients with PC was higher than the general population. Prediagnosis psychiatric symptoms were associated with reduced chemotherapy utilization and worse overall survival. Thus, timely identification and treatment of these symptoms may improve outcomes.

Studies on the partial characterization of extracted glycosaminoglycans from fish waste and its potentiality in modulating obesity through in-vitro and in-vivo

Glycosaminoglycans (GAGs) are bioactive polysaccharides or glycoconjugates found in the fish waste having significant health impacts. In the present study it has been attempted to extract GAGs from mackerel fish waste through chemical and enzymatic methods. Further, the extracted GAGs (e-GAGs) were analyzed for their composition (uronic acid, total sugar & sulfate), chemical characterization was carried out through techniques of scanning electron microscopy (SEM) and Fourier transform infrared spectroscopy (FTIR) & Proton NMR. Further, probable major GAGs present was identified by enzymatic digestion. The biological potential of the extracted glycoconjugate was assessed further through in-vitro and in-vivo studies. In-vitro biological activity showed good lipase inhibition (IC₅₀, 2.6 mg/mL) and bile acid binding properties (dose-dependent). Lipid accumulation lowered in the e-GAGs differentiated 3T3L1 preadipocyte cells have also been observed. The high fat fed animal (in-vivo) study showed ameliorative effect via reducing blood sugar∼1.28↓, lipid profile↓, plasma insulin∼3.5↓, improved glucose tolerance, and homeostatic model assessment for insulin resistance (HOMA-IR, ∼3.0↓). Furthermore, elimination of bile acid (BA) due to GAG-BA binding properties resultant in removal of elevated fecal triglyceride and cholesterol suggesting its lipid lowering activity. Regulation of various proteins linked to carbohydrate and lipid metabolism including fatty acid synthase (FAS), low density lipoproteins receptor (LDL-R), 7α-hydroxylase, glucose transporter-4 (GLUT4) and Peroxisome proliferator- activated receptor gamma (PPAR-γ) were significant (p < 0.05) with e-GAGs treatment when compared to HFD group. Thus, the e-GAGs showed potential hypolipidemic activity through elimination of bile acid binding property together with regulating the specific protein related to obesity and its associated complications.

Limited nutrient availability in the tumor microenvironment renders pancreatic tumors sensitive to allosteric IDH1 inhibitors

Nutrient-deprived conditions in the tumor microenvironment (TME) restrain cancer cell viability due to increased free radicals and reduced energy production. In pancreatic cancer cells a cytosolic metabolic enzyme, wild-type isocitrate dehydrogenase 1 (wtIDH1), enables adaptation to these conditions. Under nutrient starvation, wtIDH1 oxidizes isocitrate to generate α-ketoglutarate (αKG) for anaplerosis and NADPH to support antioxidant defense. In this study, we show that allosteric inhibitors of mutant IDH1 (mIDH1) are potent wtIDH1 inhibitors under conditions present in the TME. We demonstrate that low magnesium levels facilitate allosteric inhibition of wtIDH1, which is lethal to cancer cells when nutrients are limited. Furthermore, the Food & Drug Administration (FDA)-approved mIDH1 inhibitor ivosidenib (AG-120) dramatically inhibited tumor growth in preclinical models of pancreatic cancer, highlighting this approach as a potential therapeutic strategy against wild-type IDH1 cancers.

Abstract 3038: IDH1 facilitates melanoma cell survival under metabolic stress

Introduction: Novel immunotherapies and targeted therapies have generated remarkable responses for patients with melanoma relative to historic treatments, but these responses are only seen in about 50% of patients. This suggests that treatment resistance is an ongoing challenge for a significant number of patients with melanoma, leaving an urgent need for improved therapeutic strategies. In our previous studies, we demonstrated that oxidative stress has an important role in drug resistance, and that wild type isocitrate dehydrogenase 1 (IDH1) is a major source of cytosolic NADPH that maintains redox homeostasis of cells under hypoxic and metabolic stress. This critical enzyme has not been thoroughly evaluated in melanoma. Herein, we explored the expression and function of IDH1 in human melanoma and the role of IDH1 in regulating melanoma metabolism.

Methods: We evaluated IDH1 expression in primary and metastatic melanoma using The Cancer Genome Atlas (TCGA). We performed IDH1 knockdown by siRNA oligos, and evaluated cell viability by Trypan blue and PicoGreen assays under normal and nutrient-deprived conditions. Cellular reactive oxygen species (ROS) levels were determined by the DCFDA method. Metastatic activity of these cells was measured by transwell migration assays. In order to determine the impact of IDH1 in cellular metabolism, metabolomics profiling was performed by using LC-MS. These experiments were performed in A375 and SK-Mel 28 cell lines.

Results: Analysis of TCGA data from melanoma samples showed IDH1 is highly overexpressed in primary and metastatic melanoma, and higher levels are associated with decreased progression-free survival in patients. Further, we validated that IDH1 is overexpressed in tumors by comparing normal skin tissue versus tumor samples by IHC and protein expression arrays. Silencing IDH1 impaired cell proliferation and migration (vs. control) in a nutrient-deprived microenvironment, but this effect was not seen in nutrient abundance. Metabolomics revealed that inhibiting IDH1 significantly decreased NADPH, α-ketoglutarate (αKG), and GSH levels with a corresponding increase in ROS levels and an impairment of mitochondrial function. In addition, silencing IDH1 sensitized melanoma cells to temozolomide (TMZ), a DNA-alkylating agent, as indicated by a decrease in relative cell survival compared with controls.

Conclusion: IDH1 plays a critical role in tumorigenesis and chemoresistance in melanoma. Our data show that IDH1 inhibition sensitizes melanoma cells to TMZ therapy. Our study suggests that IDH1 is a potential target in melanoma as a monotherapy or in combination with existing chemotherapies.

Citation Format: Mehrdad Zarei, Ali Vaziri-Gohar, Jonathan Hue, Omid Hajihassani, Erryk Katayama, Hallie Graor, Jordan Winter, Luke Rothermel. IDH1 facilitates melanoma cell survival under metabolic stress [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3038.

Abstract 3133: Glucose is important for macrophage metabolism and response to immunotherapy in a pancreatic cancer model

Introduction: Pancreatic cancer (PC) is resistant to systemic therapies. This is at least in part due to the characteristically harsh tumor microenvironment which limits the delivery of systemic therapies and is not conducive to anti-tumor immune cell function. Unfortunately, development of novel therapeutics is arduous. Thus, identification of methods to augment the efficacy of existing therapeutics, such as immunotherapies, represents an attractive option. Herein, we attempt to sensitize PC to a colony stimulating factor 1 receptor (CSF1R) inhibitor by augmenting peripheral glucose levels.

Methods Murine PC cells (KPC) and bone marrow derived macrophages were cultured in hypoglycemic (≤2.5mM) or hyperglycemic (25mM) conditions. Phenotypic (western blot, flow cytometry), metabolic (seahorse, LC-MS metabolomics), and cell survival (clonogenic assay) assays were performed. KPC cells were orthotopically injected into the pancreas of immunocompetent mice for survival studies. Mice were randomized to pexidartinib (a CSF1R inhibitor) or vehicle and received either normal water of 30% dextrose (D30).

Results: In a co-culture experiment, tumor-supporting M2 macrophages increased KPC cell growth by 30%, whereas tumor-fighting M1 macrophages decreased KPC growth by 95%. M1 macrophages were poorly suited to survive in hypoglycemic conditions as compared to hyperglycemic conditions (relative survival: 38% vs 100%, p&lt;0.01). M2 macrophage survival was equivalent (93% vs 100%, p=0.39). When cultured in hypoglycemic conditions, M1 macrophages adopted an M2-like metabolic profile (i.e., increased TCA cycle metabolites and decreased glycolytic metabolites) assessed by both seahorse and LC-MS metabolomics. As glucose concentrations decreased in culture media over time, protein levels of an M1 marker (inducible nitric oxide, iNOS) decreased and an M2 marker (arginase) appeared, suggesting a phenotypic switch. Pexidartinib augmented M1 iNOS protein levels and simultaneously decreased M2 arginase levels. On an in vitro flow cytometric analysis, the percentage of M2 macrophages (CD206+, CD301+, F480+, CD11b+) decreased as glucose concentrations were increased (33.7% vs 38.0%), and decreased further when pexidartinib was combined with hyperglycemia (20.5%). Mice treated with pexidartinib and D30 had improved median survival relative to mice receiving pexidartinib alone (median survival: 42 (IQR: 38, 52) vs 34 (IQR: 32, 38) days, p&lt;0.05) in two independent experiments. Of note, pexidartinib alone did not improve survival as compared to vehicle or D30.

Conclusion: Higher glucose conditions promote M1 macrophage survival and function, while preventing the switch to an M2 phenotype. Also, higher peripheral glucose levels appear to sensitize PC to a CSF1R inhibitor. We plan to validate these findings using other immunotherapeutics (e.g., checkpoint inhibitors).

Citation Format: Jonathan J. Hue, Mehrdad Zarei, Hallie J. Graor, Erryk S. Katayama, Omid Hajihassani, Alexander W. Loftus, Luke D. Rothermel, Ali Vaziri-Gohar, Jordan M. Winter. Glucose is important for macrophage metabolism and response to immunotherapy in a pancreatic cancer model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3133.

Abstract 1476: Stability of circulating microRNA for plasma and serum biomarker studies

Purpose: To verify the stability and reliability of circulating microRNA (miRNA) profiles in plasma and serum under different processing and storage conditions for the optimization of future biomarker analyses.

Background: Development of blood-based early cancer detection methods have become increasingly popular in recent years. RNA profiles have been investigated; however, obtaining reliable RNA data has been a challenge due to rapid degradation by RNases. miRNAs are short non-coding regulatory RNAs that are more stable as they are complexed with proteins or packaged in exosomes. Thus, circulating miRNA profiles have the potential to serve as a diagnostic test for cancer. Optimization of collection protocols is a crucial next step for widespread use.

Methods: Whole blood was drawn after Institutional Review Board approval. Blood was processed into either plasma or serum aliquots. The samples were stored at different temperatures (0 or 25°C) for varying periods of time (0-24 hours). miRNA was extracted using a Qiagen miRNeasy Serum/Plasma kit. Changes in profiles were assessed with RT-qPCR using a previously established panel of consistently expressed miRNAs (miR15b, miR16, miR21, miR24, miR223). Values were compared using two-tailed t-tests and values are presented as mean ± standard deviation.

Results: Mean Cq values were similar at 0 and 24 hours when serum was stored on ice, suggesting negligible miRNA degradation: miR15b (29.6±0.5 vs 29.8±0.4, p=0.11), miR16 (23.5±0.8 vs 23.3±1.0, p=0.55), miR21 (28.6±0.5 vs 28.9±0.6, p=0.17), miR24 (27.4±0.7 vs 27.0±0.5, p=0.09), and miR223 (22.9±0.5 vs 22.9±0.7, p=0.90). There was similar stability over time for 60% of tested miRNAs when serum was left at room temperature: miR15b (30.3±0.7 vs 30.7±0.9, p=0.22), miR16 (23.9±0.7 vs 24.3±1.0, p=0.28), and miR21 (30.0±0.6 vs 29.9±0.6, p=0.38). Two of the miRNAs demonstrated a statistically significant increase in mean Cq after 24 hours: miR24 (27.6±0.7 vs 28.2±0.7, p=0.03) and miR223 (23.4±0.4 vs 24.6±0.6, p=&lt;0.01). In general, these trends were similar when plasma was collected, as compared to serum, at both room temperature and on ice. miRNA profiles collected from serum were overall like those obtained from plasma.

Conclusions: These data confirm and expand upon past reports demonstrating the remarkable stability of miRNA. Even in suboptimal processing conditions (i.e., room temperature for 24 hours), the miRNA profile is remarkably consistent. Although blood processing and transport times may vary between institutions, our data suggest these discrepancies may not affect the efficacy of miRNA as a blood biomarker. We plan to validate our findings using bulk small RNA sequencing, which we hypothesize will similarly demonstrate minimal changes in the entire miRNA landscape in different conditions. We will then utilize our institutional biorepository to identify potentially unique miRNA profiles present in patients with cancer.

Citation Format: Erryk S. Katayama, Jonathan J. Hue, Mehrdad Zarei, Hallie J. Graor, Omid Hajihassani, Ali Vaziri-Gohar, Jordan M. Winter. Stability of circulating microRNA for plasma and serum biomarker studies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1476.

Abstract 2321: IDO1 is a potential target to combat pancreatic cancer-associated depression

INTRODUCTION: Indolamine 2,3-dioxygenase 1 (IDO1) is upregulated in tumors. It facilitates catabolism of tryptophan to kynurenine and downstream metabolites, which are associated with psychiatric symptoms. To this point, 20% of patients at our institution developed psychiatric symptoms months before pancreatic cancer (PC) diagnosis. This proportion was threefold greater relative to non-cancer controls (6.7%), supplying indirect evidence of a biochemical link. Herein, we investigate IDO1 as a target in pancreatic cancer-associated depression.

METHODS: Human and murine PC cells were used in vitro. Protein levels were assessed using western blotting and cell survival by PicoGreen. For in vivo studies, murine PC cells were injected into the pancreatic tail. Control mice underwent an acellular injection. Mice were treated with epacadostat (an IDO1 inhibitor), escitalopram, or vehicle. To evaluate depressive-like behavior, mice were subjected to the forced swim and tail suspension tests. The open field test was used to monitor mobility. Tumors were analyzed using western blotting and serum metabolites were assessed using LC-MS.

RESULTS: Murine and human PC cells had undetectable basal IDO1 protein levels; however, there was a strong induction with interferon-gamma. There was a further increase in IDO1 with added epacadostat. Escitalopram had no effect on IDO1 levels. Epacadostat and escitalopram did not impact PC cell viability. Physical mobility of PC mice was similar to controls over the study period. PC mice were more immobile relative to controls during the forced swim (percent immobile: 16.0% v 8.2%, p&lt;0.001) and tail suspension (24.1% v 15.4%, p=0.003) tests. There was a 2.3-fold increase in serum kynurenine levels in PC mice relative to controls (p&lt;0.001).PC mice treated with epacadostat were less immobile relative to PC mice receiving vehicle in both the forced swim (3.2% v 6.6%, p=0.002) and tail suspension (25.0% v 39.3%, p=0.002) tests. Metabolomics demonstrated a 95% reduction in serum kynurenine levels in mice receiving epacadostat relative to vehicle (p&lt;0.001). Tumors of mice treated with epacadostat exhibited a compensatory upregulation of IDO1. Mice treated with escitalopram performed similarly to vehicle-treated mice on the forced swim (7.6%, p=0.85) and tail suspension (38.7%, p=0.77) tests, and kynurenine levels were similar. CONCLUSION: Mice with PC exhibit depressive-like behavior relative to control mice with an associated increase in kynurenine. Treatment with epacadostat improved depressive-like behavior and dramatically reduced kynurenine. These data provide evidence to trial epacadostat in patients battling pancreatic cancer-associated depression.

Citation Format: Jonathan J. Hue, Hallie J. Graor, Mehrdad Zarei, Ali Vaziri-Gohar, Erryk S. Katayama, Karen Ji, Omid Hajihassani, Alexander W. Loftus, Luke D. Rothermel, Jordan M. Winter. IDO1 is a potential target to combat pancreatic cancer-associated depression [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2321.

Abstract 2552: Effects of liver endothelium on pancreatic cancer growth and metabolism

Introduction: ~90% metastatic pancreatic ductal adenocarcinoma (mPDAC) are found in the liver, and 5-year survival rate for patients with mPDAC is only at 3%. Therefore, novel therapeutic strategies are urgently needed. A growing body of evidence suggest PDAC rely on mitochondrial function (oxidative phosphorylation, OXPHOS) for survival. However, PDAC liver metastases have been reported to have higher levels of glucose uptake compared to primary tumors suggesting that PDAC liver metastases may rely on glycolytic metabolism. Therefore, the relative metabolic and cellular profiles of primary and metastatic PDAC (mPDAC) remain unclear and the involved regulatory pathway(s) have not been elucidated. Our previous studies showed that liver endothelial cells (ECs) secreted soluble factors to promote the survival of colon cancer cells in a paracrine fashion. The influence of the liver EC microenvironment on mPDAC growth and metabolism has not been elucidated. In this study, we investigate the paracrine effects of liver ECs on the survival and metabolic profiles of PDAC and elucidate the involved mechanism(s).

Methods: Primary liver ECs were isolated from non-neoplastic liver. Conditioned medium (CM) from liver ECs were collected and then applied to PDAC cells, with CM from PDAC as control CM. Effects of CM on PDAC cell proliferation were measured by the MTT assay. Changes in phosphorylation of receptor tyrosine kinases (RTK) between PDAC CM and EC CM treated PADC cells were determined by a Phospho-RTK Array kit and then validated by Western blotting. Effects of EC CM on PDAC metabolism was assessed by ATP production with CellTiter-Glo and oxygen consumption rate with Agilent Seahorse Mito Stress Assay.

Results: Compared to PDAC CM, liver EC CM promoted proliferation in different PDAC cells. We found that human epidermal growth factor receptor 3 (HER3, also known asERBB3) was only expressed and activated in BxPC-3 cells (HER3+ve), in which the HER3-AKT signaling pathway was activated by EC CM. Furthermore, blocking HER3 activation with a humanized HER3 antibody, seribantumab, significantly blocked EC CM-induced AKT activation and cell proliferation. Moreover, depletion of neuregulin (NRG) from EC CM attenuated HER3-AKT activation and indicated that EC-secreted NRG might play a role in promoting PDAC growth. Furthermore, EC CM decreased the levels of ATP production and O2 consumption in PDAC cells, suggesting that EC cells reprogram PDAC metabolism away from OXPHOS mitochondrial metabolism.

Conclusions: Liver EC-secreted factors promoted PDAC growth in vitro and in vivo, and HER3 was expressed in a subset of PDAC cells and mediated EC-induced proliferation. Moreover, EC reprogramed PDAC metabolism towards glycolysis, and inhibiting the activation of HER3 shifted PDAC metabolism to OXPHOS. Our findings provide a new insight to develop new combination of HER antibody and OXPHOS inhibitor for treating patients with HER3+ve mPDAC.

Citation Format: Wei Zhang, Michel'le Wright, Moeez Rathore, Mehrdad Zarei, Jordan Winter, Rui Wang. Effects of liver endothelium on pancreatic cancer growth and metabolism [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2552.

Abstract 3021: Understanding the effects of a ketogenic diet against pancreatic cancer

With an overall survival of less than 3%, pancreatic ductal adenocarcinoma (PDAC) is the 3rd leading cause of cancer-related death in the U.S. at its advanced stages. With the most promising therapeutics, the overall survival after a stage IV PDAC diagnosis is only at 11.1 months. The marginal effects of current therapeutics emphasize the importance of developing new approaches to treat PDAC. In a wide range of cancer subtypes, a ketogenic diet has shown encouraging effects as combination therapy. However, the underlying anti-tumorigenic pathways involved in this diet alone are still not well understood. The ketogenic diet’s core elements and direct physiologic effects (ketone bodies, fatty acids, low glucose, low insulin levels) potentially alter PDAC biology that span from redox homeostasis to mitochondrial metabolism, and epigenetic modifications. We hypothesized that in carefully controlled in vitro and in vivo experiments, KD components delay growth of PDAC. Additionally, we hypothesize that understanding the underlying drivers of the anti-tumor effects of a ketogenic diet could be leveraged into the rational design of combination therapies that augment these anti-tumor effects. We show that in the subcutaneous mouse model of PDAC, tumor growth is markedly delayed under ketogenic diet restrictions Furthermore, in PDAC cell culture models, we observed anti-cancer effects when the ketogenic diet core elements are isolated. Specifically, fatty acids and ketone bodies inhibit PDAC cell growth, particularly under high glucose conditions. These effects are somewhat attenuated under low glucose, suggesting that these elements result in competing effects on PDAC cells (i.e., support some pro-survival pathways while inhibiting others). Future studies seek to better delineate the mechanistic impact of the principal ketogenic diet elements on metabolic pathways with a focus on mitochondrial metabolism, as well effects on epigenetic signaling.

Citation Format: Omid Hajihassani, Ali Vaziri-Gohar, Mehrdad Zarei, Jonathan Hue, Helen Cheng, Anusha Mudigonda, Erryk Katayama, Hallie Graor, Jordan Winter. Understanding the effects of a ketogenic diet against pancreatic cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3021.

Clinical development of IDH1 inhibitors for cancer therapy

Isocitrate dehydrogenase 1 (IDH1) has been investigated as a promising therapeutic target in select cancers with a mutated version of the enzyme (mtIDH1). With only one phase III trial published to date and two indications approved for routine clinical use by the FDA, we reviewed the entire clinical trial portfolio to broadly understand mtIDH1 inhibitor activity in patients. We queried PubMed.gov and ClinicalTrials.gov to identify published and ongoing clinical trials related to IDH1 and cancer. Progression-free survival (PFS), overall survival (OS), 2-hydroxyglutarate levels, and adverse events were summarized. To date, ten clinical trials investigating mtIDH1 inhibitors among patients with diverse malignancies (cholangiocarcinoma, acute myeloid leukemia, chondrosarcoma, glioma) have been published. Almost every trial (80%) has investigated ivosidenib. In multiple phase I trials, ivosidenib treatment resulted in promising radiographic and biochemical responses with improved survival outcomes (relative to historic data) among patients with both solid and hematologic mtIDH1 malignancies. Among patients enrolled in a phase III trial with advanced cholangiocarcinoma, ivosidenib resulted in a PFS rate of 32% at 6 months, as compared to 0% with placebo. There was a 5.2 month increase in OS with ivosidenib relative to placebo, after considering crossover. The treatment-specific grade ≥3 adverse event rate of ivosidenib was 2%-26% among all patients, and was just 3.6% among 284 patients who had a solid tumor across four trials. Although <1% of malignancies harbor IDH1 mutations, small molecule mtIDH1 inhibitors, namely ivosidenib, appear to be biologically active and well tolerated in patients with solid and hematologic mtIDH1 malignancies.

Nuclear Receptor 4A2 (NR4A2/NURR1) Regulates Autophagy and Chemoresistance in Pancreatic Ductal Adenocarcinoma

Pancreatic ductal adenocarcinoma (PDAC) is a highly aggressive cancer with poor prognosis and chemotherapy with gemcitabine has limited effects and is associated with development of drug resistance. Treatment of Panc1 and MiaPaca2 pancreatic cancer cells with gemcitabine induced expression of the orphan nuclear receptor 4A2 (NURR1) and analysis of the cancer genome atlas indicated the NURR1 is overexpressed in pancreatic tumors and is a negative prognostic factor for patient survival. Results of NURR1 knockdown or treatment with the NURR1 antagonist 1,1-bis(3΄-indolyl)-1-(p-chlorophenyl)methane (C-DIM 12) demonstrated that NURR1 was pro-oncogenic in pancreatic cancer cells and regulated cancer cell and tumor growth and survival. NURR1 is induced by gemcitabine and serves as a key drug-resistance factor and is also required for gemcitabine-induced cytoprotective autophagy. NURR1 regulated genes were determined by RNA sequencing of mRNAs expressed in MiaPaCa2 cells expressing NURR1 and in CRISPR/Cas9 gene edited cells for NURR1 knockdown and KEGG enrichment analysis of the differentially expressed genes showed that autophagy was the major pathway regulated by NURR1. Moreover, NURR1 regulated expression of two major autophagic genes ATG7 and ATG12 which are also overexpressed in pancreatic tumors and like NURR1 are negative prognostic factors for patient survival. Thus, gemcitabine-induced cytoprotective autophagy is due to the NURR1 - ATG7/ATG12 axis and this can be targeted and disrupted by NURR1 antagonist C-DIM12 demonstrating the potential clinical applications for combination therapies with gemcitabine and NURR1 antagonists.

Ginger and turmeric lipid-solubles attenuate heated oil-induced cardio-hepatic oxidative stress via the up-regulation of nuclear factor erythroid 2-related factor 2 and decrease blood pressure in rats

Deep-fried vegetable oils are reused multiple times to save costs, and their chronic consumption may cause organ dysfunction. In this study, we assessed the modulatory effects of lipid-solubles from ginger and turmeric that may migrate to oils during heating, on the cardio-hepatic antioxidant defence response and blood pressure in rats. Male Wistar rats were fed with: (1) control (native rapeseed (N-CNO) or native sunflower (N-SFO)) oil, (2) heated (heated rapeseed (H-CNO) or heated sunflower (H-SFO)) oil and (3) heated oil with ginger or turmeric (heated rapeseed oil with ginger (H-CNO + GI) or heated rapeseed oil with turmeric (H-CNO + TU), heated sunflower oil with ginger (H-SFO + GI) or heated sunflower oil with turmeric (H-SFO + TU)) for 120 d. Oxidative stress (OS) markers, antioxidant enzymes, nitric oxide synthase-2 (NOS-2), intercellular adhesion molecule-1 (ICAM-1), nuclear factor erythroid 2-related factor 2 (NRF-2), markers of hepatic and cardiac function and blood pressure were assessed. Feeding heated oils (H-CNO or H-SFO) (1) increased OS markers, NOS-2 and ICAM-1 expression; (2) decreased antioxidant enzyme activity and NRF-2 level; (3) increased marker enzymes of hepatic and cardiac function and (4) increased systolic and diastolic blood pressure significantly (P < 0·05), when compared with respective native oils (N-CNO or N-SFO). However, feeding oils heated with ginger or turmeric positively countered the changes induced by heated oils. Consumption of repeatedly heated oil causes cardio-hepatic dysfunction by inducing OS through NRF-2 down-regulation. Lipid-solubles from ginger and turmeric that may migrate to oil during heating prevent the oxidative stress and blood pressure triggered by heated oils in rats.

Ginger and turmeric lipid-solubles attenuate heated oil-induced oxidative stress in the brain via the upregulation of NRF2 and improve cognitive function in rats

In this study, we elucidated the modulatory potentials of lipid-solubles from ginger and turmeric that may migrate to oils during heating on the brain antioxidant defense and cognitive response in rats. Male Wistar rats were fed with control diet [including native canola oil (N-CNO), and native sunflower oil (N-SFO)], or experimental diets [including heated canola oil (H-CNO), heated sunflower oil (H-SFO), heated canola oil with ginger (H-CNO + GI), heated canola oil with turmeric (H-CNO + TU), heated sunflower oil with ginger (H-SFO + GI), heated sunflower oil with turmeric (H-SFO + TU)] for 90 days. Memory parameters [Morris water maze, elevated plus maze, novel object recognition test, T-maze (spontaneous alteration)], locomotor skills (open field test and rotarod test), antioxidant defense enzymes, reactive oxygen species, NOS2, ICAM-1, and NRF-2 level in the brain were assessed. Compared to their respective controls, heated oil-fed rats, but not those fed oils heated with ginger or turmeric, showed significant (p < 0.05) reduction in the memory, motor coordination skills, antioxidant defense enzymes, and NRF-2 activation in the brain. Compared to their respective controls, the brain NOS-2 and ICAM-1 were significantly (p < 0.05) increased in heated oil-fed rats, but not those fed oils heated with ginger or turmeric. Chronic intake of repeatedly heated oil causes brain dysfunction by inducing oxidative stress through NRF-2 downregulation. Lipid-solubles from ginger and turmeric that may migrate to oil during heating prevent the oxidative stress and cognitive dysfunction triggered by heated oils in rats.

Ginger and turmeric lipid-solubles attenuate heated oil-induced hepatic inflammation via the downregulation of NF-kB in rats

PURPOSE

Reusing deep-fried vegetable oils multiple times is a common practice to save costs, and their chronic consumption may cause hepatic dysfunction. In this investigation, we assessed the modulatory effects of ginger and turmeric lipid-solubles that may migrate to oils during heating on the hepatic inflammatory response in rats.

METHODS

Male Wistar rats were fed with; 1) control {native canola (N-CNO) or native sunflower (N-SFO)} oil, 2) heated (heated canola {(H-CNO) or heated sunflower (H-SFO)} oil, and 3) heated oil with ginger or turmeric {heated canola with ginger (H-CNO + GI) or heated canola oil with turmeric (H-CNO + TU), heated sunflower oil with ginger (H-SFO + GI) or heated sunflower oil with turmeric (H-SFO + TU)} for 120 days. Hepatic inflammatory response comprising eicosanoids, cytokines, and NF-kB were assessed.

RESULTS

Compared to respective controls, feeding heated oils significantly (p < 0.05); 1) increased eicosanoids (PGE2, LTB4, and LTC4) and cytokines (TNF-α, MCP-1, IL-1β, and IL-6), 2) increased nuclear translocation of NF-kB in the liver, and 3) increased the hepatic expression of 5-LOX, COX-2, BLT-1, and EP-4. However, feeding oils heated with ginger or turmeric positively countered the changes induced by consumption of heated oils.

CONCLUSIONS

Consumption of repeatedly heated oil may cause hepatic dysfunction by inducing inflammatory stress through NF-kB upregulation. Lipid-solubles from ginger and turmeric that may migrate to oil during heating prevent the hepatic inflammatory response triggered by heated oils in rats.

The Relationship Between Vitamin D and Telomere/Telomerase: A Comprehensive Review

Telomeres are repetitive nucleotide sequences that together with the associated sheltrin complex protect the ends of chromosomes and maintain genomic stability. Evidences from various organisms suggests that several factors influence telomere length regulation, such as telomere binding proteins, telomere capping proteins, telomerase, and DNA replication enzymes. Recent studies suggest that micronutrients, such as vitamin D, folate and vitamin B12, are involved in telomere biology and cellular aging. In particular, vitamin D is important for a range of vital cellular processes including cellular differentiation, proliferation and apoptosis. As a result of the multiple functions of vitamin D it has been speculated that vitamin D might play a role in telomere biology and genomic stability. In this study, our main goal is investigating the relationship between telomerase enzyme and vitamin D. Findings of this study suggest that higher vitamin D concentrations, which are easily modifiable through nutritional supplementation, are associated with longer LTL, which underscores the potentially beneficial effects of this hormone on aging and age-related diseases. Vitamin D may reduce telomere shortening through anti-inflammatory and anti-cell proliferation mechanisms. Significant Low levels of telomerase activity create short telomeres, which in turn signal exit from the cell cycle resulting in cell senescence and apoptosis. In follow-up examination, the patients who remained vitamin D deficient tended to have shorter telomeres than those patients whose 25-hydroxyvitamin D levels were depleted. Increasing 25-hydroxyvitamin D levels in patients with SLE may be beneficial in maintaining telomere length and preventing cellular aging. Moreover, anti-telomere antibody levels may be a promising biomarker of SLE status and disease activity.

Dietary n-3 but not n-6 fatty acids modulate anthropometry and fertility indices in high-fat diet fed rats: a two-generation study

The present study assessed the modulatory potentials of dietary n-3 [α-linolenic acid (ALA, 18:3n-3, eicosapentaenoic acid (EPA, 20:5n-3 + docosahexaenoic acid (DHA) 22:6n-3), and n-6 fatty acid (LA, 18:2n-6)] on anthropometric parameters and fertility indices in high-fat-fed rats. Weanling female Wistar rats were fed with control diet (7% lard), high-fat diet (35% lard, HFL), high-fat with fish oil (21% fish oil + 14% lard, HFF), high-fat with canola oil (21% canola oil + 14% lard, HFC) and high-fat with sunflower oil (21% sunflower oil + 14% lard, HFS) for 2 months, mated and continued on their diets during pregnancy. At gestation day 18-20, the intra-uterine environment was examined in representative rats, and the rest were allowed for delivering pups. The pups after lactation were subjected to mating and feeding trials as above. Growth parameters (body weight, body length (BL), abdominal circumference (AC), thoracic circumference (TC), and Lee index and fertility parameters (litter size and sex ratio) were studied. Feeding HFL diet increased BL (16%), AC (33%) and TC (21%) compared to control (p < 0.05). Adipose tissue accumulation was 11% higher in the HFL group compared to control and was lowered with n-3 fatty acid incorporation in the diet. HFL group exhibited a lower percentage of fertility, pregnancy, and delivery indices. Litter size was decreased by 20%, and litter weight was increased by 23% in HFL group compared to control with more male pups. Our study indicated that n-3 to a larger extent than n-6 fatty acids modulated high-fat induced changes in the anthropometric parameters and fertility indices.

Imidazole and carbazole derivatives as potential anticancer agents: molecular docking studies and cytotoxic activity evaluation

Carbazoles and imidazole represent two important classes of heterocycles which exhibit diverse biological activities such as antitumor properties. In this study, imidazole (C1-C3) and carbazole (C4 and C5) derivatives were evaluated for their cytotoxic activity against three human cancer cell lines namely, MCF7 (human breast cancer), HT29 (human colon cancer), and HeLa (human cervical cancer). Carbazole derivatives (C4 and C5) with IC50 < 10 µM showed greater cytotoxic effect than imidazole derivatives (C1-C3). Furthermore, all compounds exhibited better anticancer activity against MCF-7 than other two cell lines (HT-29, HeLa) and compound C4 was the most potent compound with the IC50 values of 2.5, 5.4 and 4.0 µM, against MCF-7, Hela and HT-29 cell lines, respectively. Physicochemical properties of compounds were calculated and their correlation with the IC50 values on MCF-7 cell line investigated. Surface area and polarizability of compounds showed good correlation by R2 = 0.8396 and R2 = 0.834, respectively. Docking studies of these compounds were also performed on the DNA as proposed target to comprehend their binding interactions and binding energies. The docking energy of compounds ranged from - 11.32 to -13.48 kcal/mol. Compound C3 with energy of -13.48 kcal/mol had the highest docking energy. Docking results indicated that these compounds (C1-C5) had strong affinity in binding to the DNA.                     KEY WORDS: Imidazole, Carbazole, Molecular docking, Cancer, MTT assay   Bull. Chem. Soc. Ethiop. 2020, 34(2), 377-384 DOI: https://dx.doi.org/10.4314/bcse.v34i2.14

Role of n-3 Fatty Acids on Bile Acid Metabolism and Transport in Dyslipidemia: A Review

Dietary n-3 fatty acids, especially of marine origin, eicosapentaenoic acid (20:5n-3) and docosahexaenoic acid (22:6n-3), have always been lauded for their profound effects on regulating the risk factors for major metabolic disorders. Yet, their consumption rate is poor compared to n-6 fatty acids [linoleic acid (18:2n-6)], which are predominantly consumed. Hence, the skewed n-6 to n-3 fatty acid ratio may have a bearing on the risk factors of various diseases, including dyslipidemia. Dyslipidemia and other lifestyle diseases associated with it, such as diabetes, obesity, hypertension, are a growing concern in both developed and developing countries. A common strategy for addressing dyslipidemia involves bile acid (BA) sequestration, to interrupt the enterohepatic circulation of BA, resulting in the modulation of lipid absorption in the intestine, thereby normalizing the levels of circulating lipids. The BA homeostasis is under the tight control of hepatic and enteric BA transporters. Many investigations have reported the effects of dietary constituents, including certain fatty acids on the reabsorption and transport of BA. However, a critical review of the effects of n-3 fatty acids on BA metabolism and transport is not available. The present review attempts to explore certain unmapped facets of the n-3 fatty acids on BA metabolism and transport in dyslipidemia, and their interplay with biological processes involving lipid rafts and gut microbiome.

Improving vascular imaging with co-planar mutually guided photoacoustic and diffuse optical tomography: a simulation study

Diffuse optical tomography (DOT) and photoacoustic tomography (PAT) are functional imaging modalities that provide absorption coefficient maps of the tissue. Spatial resolution of DOT is relatively low due to light scattering characteristics of the tissue. On the other hand, although PAT can resolve regions of different absorptions with a high spatial resolution, measuring the absolute value of optical absorptions using PAT is challenging due to unknown light fluence distribution in the tissue. Development of image guidance techniques using a priori information of imaging target structure has been shown to increase the accuracy of DOT. PAT is one such method that can be used as a complementary modality to serve as a guide for DOT image reconstruction. On the other hand, estimated fluence map provided by DOT can be used to quantitatively correct PAT images. In this study we introduce a mutually-guided imaging system for fast and simultaneous optical and photoacoustic measurements of tissue absorption map, where DOT is guided by the PAT image and vice versa. Using the obtained absorption map of the tissue, we then estimate the tissue scattering map. We conducted this study using a series of simulations on digital phantoms and demonstrated the effectiveness of the proposed method.

The Temporal Confounding Effects of Extra-cerebral Contamination Factors on the Hemodynamic Signal Measured by Functional Near-Infrared Spectroscopy

Introduction: Functional near-infrared spectroscopy (fNIRS) has been broadly applied for optical brain imaging. This method is hemodynamic-based functional brain imaging relying on the measurement of the neurovascular coupling to detect changes in cerebral neuronal activities. The extra-cerebral hemodynamic changes are important contaminating factors in fNIRS measurements. This error signal can be misinterpreted as cerebral activities during fNIRS studies. Recently, it was assumed that temporal changes in deoxygenated hemoglobin concentration [HHb] was hardly affected by superficial blood flow, and it was proposed that the activation maps could be determined from [HHb] at large source-detector separation. Methods: In the current study, we measured the temporal changes in [HHb] using a continueswave fNIRS device at large source-detector separation, while superficial blood flow was stimulated by infrared lasers. A mesh-based Monte Carlo code was applied to estimate fNIRS sensitivity to superficial hemodynamic changes in a realistic 3D MRI-based brain phantom. Results: First, we simulated photon migration in a four-layered human-head slab model to calculate PPLs and fNIRS sensitivity. Then, the localization of the infrared laser inside a realistic brain model was studied using the Monte Carlo method. Finally, the changes in [HHb] over the prefrontal cortex of six adult males were measured by fNIRS at a source-detector separation of 3 cm. The results demonstrated that the relation between fNIRS sensitivity and an increase in S-D separation was nonlinear and a correlation between shallow and deep signals was observed. Conclusion: The presented results demonstrated that the temporal changes in the superficial blood flow could strongly affect HHb measurement at large source-detector separation. Hence, the cerebral activity map extracted from the [HHb] signal was mainly contaminated by superficial blood flow.

Early diagenetic behavior of arsenic in the sediment of the hypersaline Maharlu Lake, southern Iran

Arsenic (As) is a toxic element can experience phase and speciation changes during the early diagenesis of sediments across the sediment-water interface, affecting its mobility and toxicity. Maharlu Lake is a hypersaline lake in Southern Iran that today receives significant inflow from urban, industrial and agricultural wastewater. A 1-m core was sampled from the lake sediment in an area far away from the major inflows. We performed a semi-quantitative analysis of the elemental composition, and a quantitative analysis of the total As concentration, pH, loss on ignition, water content, salt content, and grain size distribution to characterize changes in sediment composition with depth and their influence on the variability of As partitioning and speciation. Nine characterized lithologies were selected for a sequential As extraction analysis to study the vertical variations in phase and speciation of As in the heterogenic lithologies. Total As concentrations range from 1.0 μg g^-1 to 13.6 μg g^-1. As is present mostly in HNO₃ and HCl extractable fractions with As⁵⁺ being the predominant species. As³⁺ was mostly found in phosphate and NH₂OH·HCl extractable fractions. The concentration of mobile As fractions generally decrease with depth. It seems that the As stored in volatile sulfides and very poorly crystalline Fe and Al hydr-oxides in the shallow sediment transforms to sulfides phases during burring. Our findings show that the mobility and toxicity of As decreases during early diagenetic processes in Maharlu lake. However, the As can be remobilized either via changes in the redox conditions in the lake.

Cysteinyl leukotriene receptor antagonism: a promising pharmacological strategy for lowering the severity of arthritis

BACKGROUND AND AIMS

Though cyclooxygenase inhibitors are employed in rheumatoid arthritis treatment, modulators of leukotrienes are underexplored. We investigated the therapeutic potential of montelukast, a known cysteinyl leukotriene receptor-1 (CysLT1) inhibitor in an experimental rat model of arthritis.

METHODS

Arthritis was induced in rats, and montelukast (5 mg/kg body wt.) was administered prophylactically (PAM) and therapeutically (TAM) through oral route.

RESULTS AND DISCUSSION

Blood and joint tissue markers of oxidative stress (lipid peroxidation, protein carbonyls, and nitric oxides) were significantly (p < 0.05) reduced in montelukast administered rats. Paw inflammation, RA markers (RF and CRP), eicosanoids (PGE₂, LTB₄, and LTC₄), cytokines (IL-1β and MCP-1), activity of hydrolytic enzymes (collagenase, elastase, and hyaluronidase), expression of matrix metalloproteinases (MMP), and EP-4 receptor were significantly (p < 0.05) reduced in montelukast administered rats. This study established that leukotriene inhibition through montelukast lowered the severity of arthritis and thus a potential strategy for reducing the severity of arthritis.

Effect of sequential treatments with sodium dodecyl sulfate and citric acid or hydrogen peroxide on the reduction of some foodborne pathogens on eggshell

The aim of this study was to investigate the effect of sodium dodecyl sulfate (SDS), citric acid, and hydrogen peroxide (H₂O₂), alone or in combination, on reducing the population of four foodborne pathogens, including Escherichia coli, Listeria monocytogenes, Salmonellatyphimurium, and Staphylococcus aureus on eggshells. In each series of tests, eight fresh eggs were inoculated with each bacterial strain by being immersed in a bacterial suspension and exposed to SDS (1.5%), H₂O₂ (0.5%), citric acid (1%), or sequential treatments with SDS + citric acid and SDS + H₂O₂. Viable cell counts were made and the bacterial concentrations results compared to pre-treatment levels. Results showed that all washing solutions except citric acid significantly (P<0.05) reduced the concentration of all tested bacteria (~2-4 log reductions). The sensitivity of S. typhimurium and E. coli to SDS and H₂O₂ was similar (~2.5 log reduction). Listeria monocytogenes (4.1 Log reduction) and S. aureus (4.3 Log reduction) were more sensitive to SDS and H₂O₂, respectively. The combination of SDS and citric acid or H₂O₂ in comparison to SDS alone, generally did not produce significant additive reductions in the viability of the bacteria on eggshells. These data suggest that SDS potentially could be used alone or in combination with citric acid or H₂O₂ as an effective and inexpensive method to reduce bacteria, such as L. monocytogenes, on eggshells. Additionally, application of SDS may be useful for bacterial decontamination of other materials and surfaces in food industries.

Vitamin D increases IGF-I and insulin levels in experimental diabetic rats

INTRODUCTION AND OBJECTIVE

Previous studies have found that IGF-I may play an important role in glucose metabolism. The aim of this study is to examine the effect of vitamin D intake on the serum levels of glucose, insulin, and IGF-I in experimental diabetic rats.

MATERIAL AND METHODS

A total of 24 male Sprague-Dawley rats aged six to seven months, with an average weight of 300±30g, were randomly divided into three groups (eight rats per group). The first group served as control and the other two groups received an intraperitoneal injection of 45mg/kg streptozotocin (STZ) to develop diabetes. Then groups were treated for four weeks either with placebo or vitamin D (two injections of 20,000IU/kg).

RESULTS

At the end of the experiment, two injection of vitamin D were found to result in a significant increase in plasma cholecalciferol, which could improve hyperglycaemia and hypoinsulinemia in diabetic rats. HbA1c concentration had a slight and insignificant decrease following vitamin D intake. In addition, a significant decline was observed in the serum IGF-I level of STZ-treated rats in comparison to the controls, which was compensated in the vitamin D group. The serum vitamin D concentration was positively correlated to the changes in IGF-I level by Pearson test.

CONCLUSIONS

These data showed for the first time that vitamin D intake could significantly improve fasting plasma glucose, insulin, and IGF-I in an experimental type 1 diabetes model.

Effects of L-carnitine supplementation on biomarkers of oxidative stress, antioxidant capacity and lipid profile, in patients with pemphigus vulgaris: a randomized, double-blind, placebo-controlled trial

BACKGROUND/OBJECTIVES

Pemphigus vulgaris (PV), as an autoimmune disease including mucosa and the skin, is associated with several complications and comorbidities. The present study planned to determine the effect of L-carnitine (LC) supplementation on biomarkers of oxidative stress (OS), antioxidant capacity and lipid profile in PV patients.Subjects/MethodsFifty two control and patients with PV, participated in the current randomized, double-blind, placebo-controlled clinical trial. The patients were allocated randomly to receive 2 g per day LC tartrate subdivided into two equal doses of 1 g before breakfast and dinner (n=26) or placebo (n=26) for 8 weeks. Anthropometric, lipid profile and OS values were determined at baseline and end of intervention period.

RESULTS

LC intake significantly reduced serum levels of triglycerides, total-, LDL- cholesterol and oxidative stress index (OSI; P<0.05). In addition, supplementation with LC resulted to a meaningful increase in levels of total antioxidant capacity (TAC) (P=0.05) and serum carnitine (P<0.001). LC intake revealed non-significant change in serum total oxidant capacity (P=0.15) and HDL- cholesterol (P=0.06) in comparison to the placebo.

CONCLUSIONS

LC consumption may have favorable results on TAC, OSI and lipid profiles in patients with PV. The results were in line with the idea that LC supplementation can be associated with positive effects on metabolic status and OS of patients with PV.European Journal of Clinical Nutrition advance online publication, 23 August 2017; doi:10.1038/ejcn.2017.131.