Ehrlich Ascites Carcinoma Growth Research Articles

Inhibition of Ehrlich ascites carcinoma growth by melatonin: Studies with micro-CT.

Melatonin is a versatile indolamine synthesized and secreted by the pineal gland in response to the photoperiodic information received by the retinohypothalamic signaling pathway. Melatonin has many benefits, such as organizing circadian rhythms and acting as a powerful hormone. We aimed to show the antitumor effects of melatonin in both in vivo and in vitro models through the mammalian target of rapamycin (mTOR) signaling pathway and the Argyrophilic Nucleolar Regulatory Region (AgNOR), using the Microcomputed Tomography (Micro CT). Ehrlich ascites carcinoma (EAC) cells were administered into the mice by subcutaneous injection. Animals with solid tumors were injected intraperitoneally with 50 and 100 mg/kg melatonin for 14 days. Volumetric measurements for the taken tumors were made with micro-CT imaging, immunohistochemistry (IHC), real-time polymerase chain reaction (PCR) and AgNOR. Statistically, the tumor tissue volume in the Tumor+100 mg/kg melatonin group was significantly lower than that in the other groups in the data obtained from micro-CT images. In the IHC analysis, the groups treated with Tumor+100 mg/kg melatonin were compared when the mTOR signaling pathway and factor 8 (F8) expression were compared with the control group. It was determined that there was a significant decrease (p < 0.05). Significant differences were found in the total AgNOR area/nuclear area (TAA/NA) ratio in the treatment groups (p < 0.05). Furthermore, there were significant differences between the amount of mTOR mRNA for the phosphatidylinositol 3-kinase (PI3K), AKT Serine/Threonine Kinase (PKB/AKT) genes (p < 0.05). Cell apoptosis was evaluated with Annexin V in an in vitro study with different doses of melatonin; It was observed that 100 µg/mL melatonin dose caused an increase in the apoptotic cell death. In this study, we have reported anti-tumor effects of melatonin in cell culture studies as well as in mice models. Comprehensive characterization of the melatonin-mediated cancer inhibitory effects will be valuable in advancing our fundamental molecular understanding and translatability of pre-clinical findings to earlier phases of clinical trials.

Growth Induction of Solid Ehrlich Ascitic Carcinoma in Mice after Proton Irradiation of Tumor Cells Ex Vivo.

This study presents data on the growth rate and frequency of induction of the solid form of Ehrlich's ascites carcinoma (EAC) in mice in the short and long term after inoculation of ascitic cells irradiated ex vivo with a proton beam in the dose range of 30-150 Gy. It was shown that the growth rate of solid tumors after inoculation of irradiated cells ex vivo coincided with the growth of tumors in the control group. The frequency of tumor induction in mice after inoculation of EAC cells irradiated at a dose of 30 Gy was 80%, 60 Gy-60%, 90 Gy-25%, and 120 Gy-10%; at irradiation at a dose of 150 Gy, no tumors appeared during the entire observation period. Thus, we determined the dose of proton radiation required to eliminate tumor cells and/or signaling factors that can lead to the induction of tumor growth of EAC in mice.

The flavonoid hesperidin methyl chalcone as a potential therapeutic agent for cancer therapy: Molecular docking, in vitro cytotoxicity, and in vivo antitumor activity

Hesperidin methyl chalcone (HMC) is a methylation product of the flavanone hesperidin, a flavonoid derived from citrus fruits. Many reports have emphasized the analgesic, anti-inflammatory and antioxidant properties of HMC. However, the anticancer potential of HMC has not been fully elucidated. The objective of this study was to assess the possible anticancer potential of HMC. MTT assay was carried out to assess the in vitro cytotoxicity of HMC against using A549 cancer cell line. In addition, the in vivo antitumor activity of HMC was screened against murine Ehrlich ascites carcinoma (EAC) model, in terms of tumor volume, tumor weight, life span, hematological and biochemical parameters, and compared with that of the anticancer agent, hesperetin. HMC was efficient to suppress the cell viability of A549 cancer cells with an IC50 value of 51.12 µM, which was comparable to that of the anticancer agent hesperetin (IC50 = 49.12 µM). Similarly, in Ehrlich ascites carcinoma model, HMC significantly inhibited the growth of Ehrlich ascites carcinoma with mutual increase in the life span of HMC-treated mice, compared to EAC control. Most importantly, HMC showed a good safety profile as evidenced by restoring hematological profile count of RBCs, WBCs, and hemoglobin to the normal levels. HMC also efficiently reduced the oxidative stress in EAC-bearing mice via increasing the levels of GSH, SOD and Catalase. Collectively, HMC exerted a potent anticancer activity and data presented in this work suggest the usefulness of HMC as a promising candidate in cancer therapy.

Enhanced antitumor activity of combined methotrexate and histone deacetylase inhibitor valproic acid on mammary cancer in vitro and in vivo.

Histone deacetylase inhibitors (HDACIs) act as antiproliferative agents by promoting differentiation and inducing apoptosis. Valproic acid (VPA) is a HDACI that shows promising chemotherapeutic effect in a number of tumor cells. The present study aimed to investigate the inhibitory effect of VPA on the viability of mammary cancer cells and its enhancing effect with methotrexate (MTX) in vitro and in vivo. Treatment with VPA or MTX alone induced concentration-dependent cytotoxic effects in two breast cancer cell lines. Valproic acid increased significantly the cytotoxicity of MTX three times against MCF7. Valproic acid addition to MTX, however, did not produce any significant changes on MTX cytotoxicity against MDA-MB231. VPA (150 and 200mg/kg) significantly inhibited the growth of Ehrlich ascites carcinoma (EAC) and solid Ehrlich carcinoma (SEC) tumor mouse models and improved results were achieved for tumor inhibition when VPA was combined with MTX (1 and 2mg/kg) in vivo. The antitumor activity was not associated with a significant increase in toxicity or mice mortality rate. All these findings suggest that the combination of MTX and VPA may have clinical and (or) adjuvant therapeutic application in the treatment of mammary cancer.

Antiproliferative and Antimicrobial Potentials of a Lectin from Aplysia kurodai (Sea Hare) Eggs.

In recent years, there has been considerable interest in lectins from marine invertebrates. In this study, the biological activities of a lectin protein isolated from the eggs of Sea hare (Aplysia kurodai) were evaluated. The 40 kDa Aplysia kurodai egg lectin (or AKL-40) binds to D-galacturonic acid and D-galactose sugars similar to previously purified isotypes with various molecular weights (32/30 and 16 kDa). The N-terminal sequence of AKL-40 was similar to other sea hare egg lectins. The lectin was shown to be moderately toxic to brine shrimp nauplii, with an LC50 value of 63.63 µg/mL. It agglutinated Ehrlich ascites carcinoma cells and reduced their growth, up to 58.3% in vivo when injected into Swiss albino mice at a rate of 2 mg/kg/day. The morphology of these cells apparently changed due to AKL-40, while the expression of apoptosis-related genes (p53, Bax, and Bcl-XL) suggested a possible apoptotic pathway of cell death. AKL-40 also inhibited the growth of human erythroleukemia cells, probably via activating the MAPK/ERK pathway, but did not affect human B-lymphoma cells (Raji) or rat basophilic leukemia cells (RBL-1). In vitro, lectin suppressed the growth of Ehrlich ascites carcinoma and U937 cells by 37.9% and 31.8%, respectively. Along with strong antifungal activity against Talaromyces verruculosus, AKL showed antibacterial activity against Staphylococcus aureus, Shigella sonnei, and Bacillus cereus whereas the growth of Escherichia coli was not affected by the lectin. This study explores the antiproliferative and antimicrobial potentials of AKL as well as its involvement in embryo defense of sea hare.

Combined Effect of Neutron and Proton Radiations on the Growth of Solid Ehrlich Ascites Carcinoma and Remote Effects in Mice.

The combined effect of the irradiation with a proton pencil scanning beam (PBS) at a total dose of 80 Gy and neutron radiation at a dose of 5 Gy on the growth of solid Ehrlich ascites carcinoma (EAC) and the remote effects in tumor-bearing mice was studied. Combined irradiation of mice with neutrons before and after irradiation with PBS, as well as irradiation only with PBS, effectively suppressed the growth of solid EAC within 1 month. In terms of the frequency and severity of radiation-induced skin reactions of mice observed 15-40 days after therapy, neutron irradiation after the irradiation with PBS showed better values of these parameters as compared to only PBS; however, exposure to neutrons before PBS was more damaging as compared to the other two options. It was also shown that the tumor relapse rate in the groups of animals with combined irradiation was higher, and the total lifespan was lower than the group of mice irradiated with PBS alone.

Caffeic acid and protocatechuic acid modulate Nrf2 and inhibit Ehrlich ascites carcinomas in mice

Objective: To assess the nuclear factor-erythroid 2-related factor-2 (Nrf2) modulatory effect of caffeic acid and protocatechuic acid and determine the anti-tumor activity of these phenolic compounds against Ehrlich ascites carcinoma growth in mice. Methods: Antioxidant activity of protocatechuic acid and caffeic acid was assessed using ferric reducing antioxidant power (FRAP) and 2,2-diphenyl-1-picrylhydrazyl (DPPH). Nrf2 activation potential of phenolic compounds was tested by quantitative realtime polymerase chain reaction, and luciferase complementation reporter assays. In vivo efficacy was tested using the Ehrlich ascites carcinoma model. Results: FRAP and DPPH radical scavenging assays showed that caffeic acid and protocatechuic acid were more potent compared with cinnamic acid and benzoic acid. Luciferase complementation reporter assays identified caffeic acid and protocatechuic acid as the activators of Nrf2. Both caffeic acid and protocatechuic acid upregulated the expression of Nrf2 target genes heme oxygenase-1 (HO-1), glutamate-cysteine ligase catalytic subunit (GCLC), and glutamate-cysteine ligase modifier subunit (GCLM) and the activity of NAD(P)H:quinone oxidoreductase 1 (NQO1) when tested on HCT-116 cells using a cell-based assay system at 9 h. In addition, intraperitoneal administration of caffeic acid and protocatechuic acid to Ehrlich ascites carcinoma bearing mice suppressed tumor growth and angiogenesis. Conclusions: Caffeic acid and protocatechuic acid can modulate Nrf2 and inhibit Ehrlich ascites carcinoma cells.

Reduction of the Cisplatin Toxicity by Its Conjugation with Arabinogalactan

Cisplatin is an effective anticancer drug used to treat various types of cancer. The main disadvantage of the drug is its high toxicity. To reduce the toxic effect of cisplatin, we conjugated it with arabinogalactan, which is capable of forming soluble globules and bind poorly soluble pharmacological compounds by confining them inside spheroid globules. In this study, we compared the biological effect and mechanism of action of cisplatin and its complex with arabinogalactan (AG–Pt) on the growth of Ehrlich ascites carcinoma in vivo. It has been shown that the conjugates of arabinogalactan with cisplatin exerted a strong antitumor effect despite the fact that the dose of cisplatin in the composition of the conjugates was 10 times less than the standard dose. At the same time, the conjugates of arabinogalactan with cisplatin were virtually nontoxic. It has been established that the antitumor effect of cisplatin and its conjugates with arabinogalactan is due to the induction of apoptosis in tumor cells. It is assumed that a decrease in toxicity and an increase in the efficacy of cisplatin-arabinogalactan conjugates compared to pure cisplatin are associated with its more efficient accumulation in tumor cells.

Antitumor effect of a crude protein-bound polysaccharide substance extracted from Volvariella speciosa

Mushroom polysaccharides, as the main active ingredient in the mushroom, inhibit cancer cells by activating host immune system. These special properties along with minimal side effects make mushroom polysaccharides as novel anticancer therapies. The present study involved the investigation of polysaccharides from fruit bodies of Volvariella speciosa on growth of Ehrlich ascites carcinoma (EAC) cell lines. In a pilot study two modes of treatment were used, prophylactically and treatment after tumor injection. The prophylactic treatment doesn't rule out its role in the antitumor effect by these PS. However, the other mode of treatment showed better results. A significant reduction in tumor volumes in tumor bearing mice treated with PS was accompanied with a significant reduction in both liver DNA and RNA in addition to an increase in the total lipids and proteins. A significant increase in SOD together with decrease in MDA was noticed. A highly significant decrease in Alk-Ph, ALT and AST and an elevation in albumin after treatment the groups of tumor-bearing mice with the PS substance compared with those saline-treated tumor-bearing mice. The haematological parameters were found to be altered toward normal values. An elevation of IFN-γ, IL-2, IL-12 and reduction in IL-10 were recorded. In the acute toxicity tests, no mortality or sign of induced modifications in the biochemical parameters were observed after PS treatment. The IR has characteristic bands attributed to (1−3) β glucan linkage with a protein moiety. These polysaccharides should be conducted in the future to achieve their use in different potential applications.

Phenethyl isothiocyanate Triggers Apoptosis, Combats Oxidative Stress and Inhibits Growth of Ehrlich Ascites Carcinoma Mouse Model.

The aim of this study is to investigate the antitumor activity and possible molecular mechanism of Phenethyl isothiocyanate (PEITC) against Ehrlich ascites carcinoma in-vivo and in-vitro. In-vivo, ascetic fluid volume, body weight, serum malondialdehyde (MDA) level and total antioxidant capacity (TAC) were determined using Ehrlich ascites carcinoma (EAC) bearing mice. In-vitro, MTT assay was used. RT-PCR was used to investigate role of PEITC in apoptosis by analyzing the expression of Bax, caspase-9, and Bcl-2 genes. The effect of PEITC on caspase-9 enzyme activity was also tested. PEITC and/or Doxorubicin (Dox) treatment significantly suppressed EAC growth as compared to EAC/oil control mice. PEITC treatment showed a dose-dependent inhibition of EAC cells as indicated by MTT assay. We found that significant increase in MDA level and decrease in TAC caused by Dox treatment were significantly reduced by combination with PEITC treatment. Bax, caspase-9 genes' expression and caspase-9 enzymatic activity were significantly increased, while Bcl-2 gene expression was significantly decreased in PEITC treated mice. PEITC may act as a promising anticancer agent either alone or more effectively in combination with Dox through apoptotic cell death induction.

C-glycosyl Flavone from Urginea indica Inhibits Growth and Dissemination of Ehrlich Ascites Carcinoma Cells in Mice.

C-glycosyl flavone, a phytochemical constituent in U.indica bulb, has been reported to possess cytotoxic activity. The present study aims to investigate the toxicity and anticancer potentials of C-glycosyl flavone against Ehrlich ascites carcinoma mice model. In present study, acute and chronic toxicity along with antitumor activity of C-glycosyl flavone isolated from U.indica bulb were Performed using in vitro and in vivo methods. Acute and chronic toxicity of C-glycosyl flavone was evaluated using Swiss albino mice. The effect of C-glycosyl flavone on proliferation of Ehrlich ascites carcinoma (EAC) cells was determined. Further, growth inhibition and dissemination were studied using EAC induced mice model. C-glycosyl flavone showed significant therapeutic potency against EAC cells in terms of reduced viability, cell cycle arrest, induction of apoptosis, inhibition of capillary formation, reduced VEGF levels. Moreover, there was reduction in body weight, tumor volume, viable tumor cells, increased survival of EAC induced mice upon C-glycosyl flavone treatment. Treatment also reduced dissemination of EAC cells into heart, kidney, liver and brain and diminished the pathological alterations induced by EAC cells in mice. In addition, there was an improvement in hemoglobin levels and counts of RBC, neutrophils, lymphocytes and monocytes in C-glycosyl flavone-treated mice with tumor. An enhancement of antioxidant status in C-glycosyl flavone treated EAC-bearing mice which appeared in terms of decreased serum thiobarbituric acid reactive substance and lipid peroxidation, increased GSH, SOD, Catalase and GPX. These results were comparable to a standard 5- fluorouracil treatment. C-glycosyl flavone exhibited safety profile in toxicity studies. Our study confirms the therapeutic potency of C-glycosyl flavone against EAC in inhibition of dissemination and growth of EAC in mice.

Cobra Venom Factor and Ketoprofen Abolish the Antitumor Effect of Nerve Growth Factor from Cobra Venom.

We showed recently that nerve growth factor (NGF) from cobra venom inhibited the growth of Ehrlich ascites carcinoma (EAC) inoculated subcutaneously in mice. Here, we studied the influence of anti-complementary cobra venom factor (CVF) and the non-steroidal anti-inflammatory drug ketoprofen on the antitumor NGF effect, as well as on NGF-induced changes in EAC histological patterns, the activity of lactate and succinate dehydrogenases in tumor cells and the serum level of some cytokines. NGF, CVF and ketoprofen reduced the tumor volume by approximately 72%, 68% and 30%, respectively. The antitumor effect of NGF was accompanied by an increase in the lymphocytic infiltration of the tumor tissue, the level of interleukin 1β and tumor necrosis factor α in the serum, as well as the activity of lactate and succinate dehydrogenases in tumor cells. Simultaneous administration of NGF with either CVF or ketoprofen abolished the antitumor effect and reduced all other effects of NGF, whereas NGF itself significantly decreased the antitumor action of both CVF and ketoprofen. Thus, the antitumor effect of NGF critically depended on the status of the immune system and was abolished by the disturbance of the complement system; the disturbance of the inflammatory response canceled the antitumor effect as well.

M3 Macrophages Stop Division of Tumor Cells In Vitro and Extend Survival of Mice with Ehrlich Ascites Carcinoma.

BackgroundM1 macrophages target tumor cells. However, many tumors produce anti-inflammatory cytokines, which reprogram the anti-tumor M1 macrophages into the pro-tumor M2 macrophages. We have hypothesized that the problem of pro-tumor macrophage reprogramming could be solved by using a special M3 switch phenotype. The M3 macrophages, in contrast to the M1 macrophages, should respond to anti-inflammatory cytokines by increasing production of pro-inflammatory cytokines to retain its anti-tumor properties. Objectives of the study were to form an M3 switch phenotype in vitro and to evaluate the effect of M3 macrophages on growth of Ehrlich ascites carcinoma (EAC) in vitro and in vivo.Material/MethodsTumor growth was initiated by an intraperitoneal injection of EAC cells into C57BL/6J mice.Results1) The M3 switch phenotype can be programed by activation of M1-reprogramming pathways with simultaneous inhibition of the M2 phenotype transcription factors, STAT3, STAT6, and/or SMAD3. 2) M3 macrophages exerted an anti-tumor effect both in vitro and in vivo, which was superior to anti-tumor effects of cisplatin or M1 macrophages. 3) The anti-tumor effect of M3 macrophages was due to their anti-proliferative effect.ConclusionsDevelopment of new biotechnologies for restriction of tumor growth using in vitro reprogrammed M3 macrophages is very promising.

Effect of electromagnetic microwave radiation on the growth of Ehrlich ascites carcinoma

Daily exposure of mouse recipients of Ehrlich ascites carcinoma to electromagnetic radiation of the microwave range leads to a change in the dynamics of tumor growth by decreasing the total number of cells. The number of tumor cells with blebbing morphological signs after microwave radiation increases gradually with tumor growth. The maximum content of tumor cells in the state of blebbing is observed during active proliferation in tumor-recipient mice of the control group (without irradiation).

Hypofractionated irradiation of the solid form of Ehrlich ascites carcinoma in mice by a thin scanning proton beam

The dynamics of the growth of Ehrlich ascites carcinoma in mice of the SHK line exposed to hypofractionated high-dose irradiation by a thin scanning proton beam has been analyzed for different irradiation volumes and different time intervals (from 4 to 24 hours) between two 30-Gy fractions. Irradiation of the gross tumor volume and the planned target volume was performed within the Bragg peak; the energy of protons at the outlet of the accelerator ranged from 85 to 100 MeV. Hypofractionated irradiation of the gross tumor volume of Ehrlich ascites carcinoma resulted in a more pronounced antitumor effect than the irradiation of the planned target volume. The effect did not depend on the interval between the irradiation episodes.

A novel quinazolinone chalcone derivative induces mitochondrial dependent apoptosis and inhibits PI3K/Akt/mTOR signaling pathway in human colon cancer HCT-116 cells

We have synthesized a novel quinazolinone chalcone derivative (QC) and first time reported its in-vitro and in-vivo anticancer potential. It inhibited the cell proliferation of different cancer cell lines like PC-3, Panc-1, Mia-Paca-2, A549, MCF-7 and HCT-116. It induces apoptosis as measured by several biological endpoints such as apoptotic body formation, evident by Hoechst and scanning electron microscopy, enhanced annexinV-FITC binding of the cells, increased sub-G0 cell fraction, loss of mitochondrial membrane potential (Δψm), reduction of Bcl-2/Bax ratio, activation of caspase-9, caspase-3 and PARP-1 (poly-ADP Ribose polymerase) cleavage in HCT-116 cells. In spite of apoptosis, QC significantly hammers the downstream and upstream signaling cascade of PI3K/Akt/mTOR pathway and cell cycle regulator Skp-2, p21 and p27. Interestingly, QC induces the S and G2/M phase of HCT-116 cells at experimental doses. QC inhibits the tumor growth of Ehrlich ascites carcinoma (EAC), Ehrlich tumor (ET, solid) and sarcoma-180(solid) mice models. Furthermore, it was found to be non-toxic as no animal mortality (0/7) occurred during experimental doses. The present study provides an insight of anticancer potential of QC, which may be useful in managing and treating cancer.

Dimethylsulfoxide excerbates cisplatin-induced cytotoxicity in Ehrlich ascites carcinoma cells.

BackgroundCisplatin (CIS) is a potent antineoplastic agent with high therapeutic efficacy against many kinds of tumors. Its use is limited by its nephrotoxicity. The aim of this work was to minimize cisplatin effective dose and the possible reduction of its severe side effects. The present study was designed to assess the role of sulfur containing agent dimethyl sulfoxide (DMSO) on sensitization of mammary carcinoma, Ehrlich ascites carcinoma (EAC), to the action of cisplatin and at the same time the possible protective effect against cisplatin induced nephrotoxicity in experimental animals.MethodsTo evaluate these effects we have explored the cisplatin effect on the survival time of tumor-bearing animals, tumor weight, cisplatin cellular uptake, apoptosis induction and cell cycle distribution and renal function in presence and absence of DMSO.ResultsCisplatin at dose of 4.5 mg/kg increased the mean survival time of tumor bearing mice to 37 days compared with tumor bearing control mice. Pretreatment of tumor bearing mice with DMSO 50 % (2 ml/kg equal to 1 gm/kg) 2 h. before cisplatin showed a significant increase in their mean survival time 43 days compared to cisplatin treated animals. DMSO pretreatment retained rat’s serum urea and creatinine levels to normal compared to animals treated with cisplatin alone.ConclusionDMSO pretreatment enhanced the cytotoxic activity of cisplatin against the growth of EAC in vivo and showed protective effects against cisplatin-induce nephrotoxicity.

Anticancer activity of a novel quinazolinone-chalcone derivative through cell cycle arrest in pancreatic cancer cell line

Background: Genotoxic effects of many of clinically useful anticancer drugs are due to their interaction with the amino groups of nucleic acids. Literature reveals that the chalcones however may be devoid of this important side effect. With this view in mind, we synthesized a novel quinazolinone-chalcone derivative and evaluated its anticancer potential. Methods: Anticancer potential of A novel quinazolinone-chalcone derivative 2-Methyl-3-(3-((E)-3-(3,4,5-trimethoxy phenyl)-2-propenoyl)phenyl)-3,4-dihydro-4-quinazolinone (8b) was determined through MTT assay, colony formation assay, Wound healing assay, Cell cycle and Western Blot Analysis in Mia paca-2 cells treated with 8b. Results: The cytotoxicity studies showed a concentration dependent decrease in cell viability of HCT-116, HL-60, PC-3, A-549, Mia pacca-2 and MCF-7 cell lines with IC 50 values ranging from 5.5 to 8.5 µM. The motility of Mia paca-2 cells treated with 8b was found inhibited in a dose dependent manner. Cell cycle studies revealed a concentration dependent rise in G2/M phase of cell cycle from 1% to 52%. Decreased expression of cyclins regulating G2/M transition of the cell cycle (cyclin B1 and cdk1) was recorded after treatment of Mia Paca-2 cells with 8b. Mitochondrial membrane potential was also significantly lost in cultures exposed to 8b. However, nuclear morphology of 8b treated Mia paca-2 cells revealed no significant changes. 8b significantly inhibited the growth of Ehrlich ascites carcinoma, Sarcoma-180 (ascites), Ehrlich tumor (solid) and Sarcoma-180 (solid). Conclusion: The findings are indicative of 8b exerting anticancer activity through cell cycle arrest at G2/M phase and not through apoptosis. Reduction in the motility of Mia paca-2 cells indicates anti-metastatic potential of 8b.

In vivo Anti-Tumour Activity of Novel 2, 3, 7 Trisubstituted Quinazoline Derivatives

OBJECTIVE: The 2, 3, 7-trisubstituted quinazoline derivatives (Compound HP1, HP2, HP3 and HP4) in two different concentrations were evaluated for antitumor activity against Ehrlich ascites carcinoma (EAC) and Dalton’s lymphoma ascites (DLA) bearing Swiss albino mice. METHODS: The in vivo antitumor potency of quinazoline bases was measured in EAC model by assessing the increase in mean survival time of the treated drug over untreated control mice and treated standard (Gefitinib) mice. Their toxicity was assessed in vivo in normal, standard and EAC bearing mice by measuring the drug-induced changes in haematological parameters. The in vivo antitumor potency of quinazoline bases was assessed in DLA model by measuring solid tumor volume, solid tumor weight and % inhibition of the tumor weight of the treated drug over untreated control mice and treated standard (Gefitinib) mice. RESULTS: Among the four quinazoline bases studied, HP1, HP3 and HP4 at a dose of 10mg/kg and 20 mg/kg, optimally inhibited the growth of EAC and DLA cells in vivo . Besides, the treatment with HP1 and HP3 (20 mg/kg) significantly restored the deviated haematological parameters in EAC challenged mice. In vivo result authenticates that compound HP3 at a dose of 20mg/kg was most effective. The apoptotic studies shows that, both HP1 and HP3, at 10 and 20 mg/kg body weight showed induction of apoptosis as they significantly restored the deviated haematological parameters in EAC challenged mice. CONCLUSIONS: Further studies are required to explore the mechanism of action of this novel molecule which might bring gifted outcomes in cancer chemotherapy.

Nerve growth factor from cobra venom inhibits the growth of Ehrlich tumor in mice.

The effects of nerve growth factor (NGF) from cobra venom (cvNGF) on growth of Ehrlich ascites carcinoma (EAC) cells inoculated subcutaneously in mice have been studied. The carcinoma growth slows down, but does not stop, during a course of cvNGF injections and restores after the course has been discontinued. The maximal anti-tumor effect has been observed at a dose of 8 nmoles cvNGF/kg body weight. cvNGF does not impact on lifespan of mice with grafted EAC cells. K252a, a tyrosine kinase inhibitor, attenuates the anti-tumor effect of cvNGF indicating the involvement of TrkA receptors in the process. cvNGF has induced also increase in body weight of the experimental animals. In overall, cvNGF shows the anti-tumor and weight-increasing effects which are opposite to those described for mammalian NGF (mNGF). However in experiments on breast cancer cell line MCF-7 cvNGF showed the same proliferative effects as mNGF and had no cytotoxic action on tumor cells in vitro. These data suggest that cvNGF slows down EAC growth via an indirect mechanism in which TrkA receptors are involved.