Role of sensory nerve peptides rather than mast cell histamine in paclitaxel hypersensitivity

A natural flavonoid, apigenin isolated from Clerodendrum viscosum leaves, induces G2/M phase cell cycle arrest and apoptosis in MCF-7 cells through the regulation of p53 and caspase-cascade pathway

BACKGROUND

With 9.6 million deaths in 2018, cancer remains the second leading cause of death worldwide. Breast cancer is the most deadly type of cancer among females, with 55.2% of crude incidence rate and 16.6% of crude mortality rate.

PURPOSE

The present study was aimed to investigate the anti-breast cancer potential of natural dietary flavonoid, apigenin isolated from Clerodendrum viscosum leaves.

METHODS

Apigenin was evaluated for in-depth anticancer activity in MCF-7 cells using cell viability assay, cell cycle analysis, Annexin-V-FLUOS staining, ROS induction, morphological analysis, and western blot analysis.

RESULTS

Apigenin showed selective cytotoxicity on MCF-7 cells with an IC₅₀-56.72 ± 2.35 µM, while negligible cytotoxicity was observed on WI-38 cells. Further, the flow cytometer-based analysis showed that apigenin halted MCF-7 cells in the G2/M phase arrest followed by dose-dependent apoptosis. Moreover, the FACS and confocal microscopy results confirmed the elevation of intracellular ROS and nuclear fragmentation in apigenin-treated MCF-7 cells. Western blots showed up-regulation of cell cycle regulatory proteins, increased p53 expression, Bax/Bcl-2 ratio, activation of caspases, and cleavage of PARP. Finally, apigenin treatment in the presence of Pifithrin-µ showed decreased apoptotic population and it was further confirmed through western blotting study. The results revealed the vital role of p53 in apigenin-induced apoptosis in MCF-7 cells.

CONCLUSIONS

In the present findings, treatment of apigenin-induced intracellular ROS in MCF-7 cells followed by induction of G2/M phase cell cycle arrest and further apoptosis through the regulation of p53 and caspase-cascade signaling pathway.

Mast Cell Protease 7 Promotes Angiogenesis by Degradation of Integrin Subunits

Previous studies from our laboratory have shown that during angiogenesis in vitro, rmMCP-7 (recombinant mouse mast cell protease-7) stimulates endothelial cell spreading and induces their penetration into the matrix. The ability of rmMCP-7 to induce angiogenesis in vivo was assessed in the present study using a directed in vivo angiogenesis assay (DIVAA™). Vessel invasion of the angioreactor was observed in the presence of rmMCP-7 but was not seen in the control. Since integrins are involved in endothelial cell migration, the relationship between rmMCP-7 and integrins during angiogenesis was investigated. Incubation with rmMCP-7 resulted in a reduction in the levels of integrin subunits αv and β1 on SVEC4-10 endothelial cells during angiogenesis in vitro. Furthermore, the degradation of integrin subunits occurs both through the direct action of rmMCP-7 and indirectly via the ubiquitin/proteasome system. Even in the presence of a proteasome inhibitor, incubation of endothelial cells with rmMCP-7 induced cell migration and tube formation as well as the beginning of loop formation. These data indicate that the direct degradation of the integrin subunits by rmMCP-7 is sufficient to initiate angiogenesis. The results demonstrate, for the first time, that mMCP-7 acts in angiogenesis through integrin degradation.

The Role of Mast Cell Specific Chymases and Tryptases in Tumor Angiogenesis

An association between mast cells and tumor angiogenesis is known to exist, but the exact role that mast cells play in this process is still unclear. It is thought that the mediators released by mast cells are important in neovascularization. However, it is not known how individual mediators are involved in this process. The major constituents of mast cell secretory granules are the mast cell specific proteases chymase, tryptase, and carboxypeptidase A3. Several previous studies aimed to understand the way in which specific mast cell granule constituents act to induce tumor angiogenesis. A body of evidence indicates that mast cell proteases are the pivotal players in inducing tumor angiogenesis. In this review, the likely mechanisms by which tryptase and chymase can act directly or indirectly to induce tumor angiogenesis are discussed. Finally, information presented here in this review indicates that mast cell proteases significantly influence angiogenesis thus affecting tumor growth and progression. This also suggests that these proteases could serve as novel therapeutic targets for the treatment of various types of cancer.

Effect of sun ginseng potentiation on epirubicin and paclitaxel-induced apoptosis in human cervical cancer cells

Background

Sun ginseng (SG), a specific formulation of quality-controlled red ginseng, contains approximately equal amounts of three major ginsenosides (RK1, Rg3, and Rg5), which reportedly has antitumor-promoting activities in animal models.

Methods

MTT assay was used to assess whether SG can potentiate the anticancer activity of epirubicin or paclitaxel in human cervical adenocarcinoma HeLa cells, human colon cancer SW111C cells, and SW480 cells; apoptosis status was analyzed by annexin V-FITC and PI and analyzed by flow cytometry; and apoptosis pathway was studied by analysis of caspase-3, -8, and -9 activation, mitochondrial accumulation of Bax and Bak, and cytochrome c release.

Results

SG remarkably enhances cancer cell death induced by epirubicin or paclitaxel in human cervical adenocarcinoma HeLa cells, human colon cancer SW111C cells, and SW480 cells. Results of the mechanism study highlighted the cooperation between SG and epirubicin or paclitaxel in activating caspase-3 and -9 but not caspase-8. Moreover, SG significantly increased the mitochondrial accumulation of both Bax and Bak triggered by epirubicin or paclitaxel as well as the subsequent release of cytochrome c in the targeted cells.

Conclusion

SG significantly potentiated the anticancer activities of epirubicin and paclitaxel in a synergistic manner. These effects were associated with the increased mitochondrial accumulation of both Bax and Bak that led to an enhanced cytochrome c release, caspase-9/-3 activation, and apoptosis. Treating cancer cells by combining epirubicin and paclitaxel with SG may prove to be a novel strategy for enhancing the efficacy of the two drug types.

Effect of paclitaxel on transient receptor potential vanilloid 1 in rat dorsal root ganglion

Peripheral neuropathy is a common adverse effect of paclitaxel treatment. To analyze the contribution of transient receptor potential vanilloid 1 (TRPV1) in the development of paclitaxel-induced thermal hyperalgesia, TRPV1 expression in the rat dorsal root ganglion (DRG) was analyzed after paclitaxel treatment. Behavioral assessment using the tail-flick test showed that intraperitoneal administration of 2 and 4 mg/kg paclitaxel induced thermal hyperalgesia after days 7, 14, and 21. Paclitaxel-induced thermal hyperalgesia after day 14 was significantly inhibited by the TRP antagonist ruthenium red (3 mg/kg, s.c.) and the TRPV1 antagonist capsazepine (30 mg/kg, s.c.). Paclitaxel (2 and 4 mg/kg) treatment increased the expression of TRPV1 mRNA and protein in DRG neurons. Immunohistochemistry showed that paclitaxel (4 mg/kg) treatment increased TRPV1 protein expression in small and medium DRG neurons 14 days after treatment. Antibody double labeling revealed that isolectin B4-positive small DRG neurons co-expressed TRPV1. TRPV1 immunostaining was up-regulated in paw skin day 14 after paclitaxel treatment. Moreover, in situ hybridization histochemistry revealed that most of the TRPV1 mRNA-labeled neurons in the DRG were small or medium in size. These results suggest that paclitaxel treatment increases TRPV1 expression in DRG neurons and may contribute to functional peripheral neuropathic pain.

Dual therapy in IPAH and SSc-PAH. A qualitative systematic review

BACKGROUND

Use of endothelin receptor antagonists (ERA), phosphodiesterase type-5 (PDE-5) inhibitors and prostaglandin analogues has resulted in improved outcomes in idiopathic pulmonary arterial hypertension (IPAH) and systemic sclerosis-associated PAH (SSc-PAH) patients. However, patients often deteriorate on monotherapy. The objective of this study is to evaluate the effect of dual therapy on outcomes in IPAH and SSc-PAH.

METHODS

A systematic review of MEDLINE (1950-2011), EMBASE (1980-2011) and CINAHL (inception-2011) was conducted to identify studies that evaluated the effect of any dual combination of ERA, PDE-5 inhibitors or prostaglandin analogues on 6-min walk distance (6MWD), functional class (FC), haemodynamics, quality-of-life (QoL) or time-to-clinical-worsening in IPAH or SSc-PAH. A standardized form was used to abstract design, sample size, aetiology, outcome and treatment effect.

RESULTS

Twenty-six observational studies and 6 randomized trials were identified. Using combination PDE-5 inhibitor and prostaglandin analogues, 6/7 studies reported improvement in 6MWD, 6/8 studies reported improvement in FC, 6/6 studies reported improvement in haemodynamics and 1 trial demonstrated improvement in QoL and time-to-clinical-worsening. Using combination ERA and prostaglandin analogues, 4/6 studies and 1 trial reported improvement in 6MWD, 3/3 studies and 1 trial reported improvement in FC, 4/5 studies and 1 trial reported improvement in PAP. Using combination ERA and PDE-5 inhibitor, 4/7 studies reported an improvement in 6MWD, and 2/6 report improvement in FC.

CONCLUSION

The evidence suggests a beneficial effect of dual therapy in IPAH and SSc-PAH, particularly those who are deteriorating on monotherapy. Research should focus on subsets of patients to identify the optimal timing and combination of dual therapy.

TRPA1 and TRPV4 mediate paclitaxel-induced peripheral neuropathy in mice via a glutathione-sensitive mechanism

Paclitaxel produces a sensory neuropathy, characterized by mechanical and cold hypersensitivity, which are abated by antioxidants. The transient receptor potential vanilloid 4 (TRPV4) channel has been reported to contribute to paclitaxel-evoked allodynia in rodents. We recently showed that TRP ankyrin 1 (TRPA1) channel mediates oxaliplatin-evoked cold and mechanical allodynia, and the drug targets TRPA1 via generation of oxidative stress. Here, we have explored whether TRPA1 activation contributes to paclitaxel-induced mechanical and cold hypersensitivity and whether this activation is mediated by oxidative stress generation. Paclitaxel-evoked mechanical allodynia was reduced partially by the TRPA1 antagonist, HC-030031, and the TRPV4 antagonist, HC-067047, and was completely abated by the combination of the two antagonists. The reduced paclitaxel-evoked mechanical allodynia, observed in TRPA1-deficient mice, was completely abolished when mice were treated with HC-067047. Cold allodynia was abated completely by HC-030031 and in TRPA1-deficient mice. Exposure to paclitaxel of slices of mouse esophagus released the sensory neuropeptide, calcitonin gene-related peptide (CGRP). This effect was abolished by capsaicin desensitization and in calcium-free medium (indicating neurosecretion from sensory nerve terminals), partially reduced by either HC-030031 or HC-067047, and completely abated in the presence of glutathione (GSH). Finally, the reduced CGRP release, observed in esophageal slices of TRPA1-deficient mice, was further inhibited by GSH. Paclitaxel via oxygen radical formation targets TRPA1 and TRPV4, and both channels are key for the delayed development of mechanical allodynia. Cold allodynia is, however, entirely dependent on TRPA1.

Synergistic effects of apigenin and paclitaxel on apoptosis of cancer cells

Background

It was well known that the clinical use of chemotherapeutic drugs is restricted by severe adverse reactions and drug resistances. Thus it is necessary to figure out a strategy to increase the specific anti-tumor efficiency of chemotherapeutic drugs. Apigenin, a kind of flavonoids, has been reported to possess anticancer activities with very low cytotoxicity to normal tissue.

Methodology/Principal Findings

Our results from cell viability assay, western-blots and TdT-mediated dUTP-biotin nick end labeling (TUNEL) assay demonstrated the synergistic pro-apoptotic effects of a low dose of apigenin and paclitaxel in human cancer cell lines. To analyze the underlying mechanism, we examined reactive oxygen species (ROS) staining after cells were treated with a combination of apigenin and paclitaxel, or each of them alone. Data from flow-cytometry showed that superoxides but not reduction of peroxides accumulated in HeLa cells treated with apigenin or a combination of apigenin and paclitaxel. Apigenin and paclitaxel-induced HeLa cell apoptosis was related to the level of ROS in cells. We further evaluated activity and protein level of superoxide dismutase (SOD). Apigenin significantly inhibited SOD activity but did not alter the SOD protein level suggesting that apigenin promoted ROS accumulation through suppressing enzyme activity of SOD. Addition of Zn²⁺, Cu²⁺ and Mn²⁺ to cell lysates inhibited apigenin's effects on SOD activity. At the same time, data from caspase-2 over-expression and knocked-down experiments demonstrated that caspase-2 participated in apigenin and paclitaxel-induced HeLa cell apoptosis.

Conclusions/Significance

Taken together, our study demonstrated that apigenin can sensitize cancer cells to paclitaxel induced apoptosis through suppressing SOD activity, which then led to accumulation of ROS and cleavage of caspase-2, suggesting that the combined use of apigenin and paclitaxel was an effective way to decrease the dose of paclitaxel taken.

Involvement of substance P in peripheral neuropathy induced by paclitaxel but not oxaliplatin

The painful peripheral neuropathy occurring frequently during chemotherapy with paclitaxel or oxaliplatin is one of their dose-limiting factors. We reported previously that substance P is involved in the pathogenesis of pulmonary hypersensitivity reaction to paclitaxel in rats, and an antiallergic agent pemirolast reverses this reaction via the blockade of release of substance P. In the present study, we investigated the involvement of substance P in paclitaxel-induced peripheral neuropathy compared with that by oxaliplatin. In von Frey and acetone tests in rats repeated administration of paclitaxel (6 mg/kg i.p., once a week for 4 weeks) or oxaliplatin (4 mg/kg i.p., twice a week for 4 weeks) induced both mechanical allodynia and cold hyperalgesia. Paclitaxel-induced peripheral neuropathy was reversed primarily by the acute administration of pemirolast (0.1 and 1 mg/kg p.o.). Moreover, coadministration of the receptor antagonists neurokinin 1 [N-acetyl-l-tryptophan 3,5-bis(trifluoromethyl)benzylester (L-732,138), 100 μg/body i.t.] and neurokinin 2 [5-fluoro-3-[2-[4-methoxy-4-[[(R)-phenylsulphinyl]methyl]-1-piperidinyl]ethyl]-1H-indole (GR159897), 100 μg/body i.t.] strongly reversed paclitaxel-induced neuropathy. On the other hand, oxaliplatin-induced peripheral neuropathy was not reversed by pemirolast. In the in vitro study using cultured adult rat dorsal root ganglion neurons paclitaxel (1000 ng/ml) significantly increased the release of substance P, and pemirolast (100 and 1000 nM) significantly inhibited this increase of substance P release. Oxaliplatin, by contrast, did not increase the release of substance P. These results suggest that substance P is involved in paclitaxel-induced neuropathy, and the mechanism of its action is clearly different from that of oxaliplatin.

Retrospective evaluation of weekly paclitaxel hypersensitivity reactions reported utilizing an electronic medical record system at a tertiary cancer center

OBJECTIVES

This is a retrospective observational study evaluating hypersensitivity reactions captured by an electronic medical record (EMR) system for weekly paclitaxel infusions.

MATERIALS AND METHODS

The study evaluates the demographics, co-morbidities, premedications, chemotherapy agents, and postmedications of patients reporting a hypersensitivity reaction to weekly infusions of paclitaxel at a major cancer center, from June 2006 to December 2007. Data were analyzed using descriptive statistics and logistic regression. P values <0.05 were considered significant.

RESULTS

There were 51 hypersensitivity reactions in 36 patients during this time period that were documented in the allergy section of the EMR. Reactions occurred in patients with an average age of 55 years (SD = 10.77); 47 (92%) of the reactions occurred in females, and 42 (82%) of the reactions occurred with orders on the breast medical/surgical service. Thirty-two (63%) reactions occurred with either the first or second dose of weekly paclitaxel infusion. The most common premedication was dexamethasone (50 infusions), followed by diphenhydramine (18 infusions), and cimetidine (14 infusions). Thirty-three (65%) infusions had only one premedication. Postreaction, 41 (80%) cases had diphenhydramine and 30 (59%) cases had hydrocortisone administered prior to restarting the infusion. Logistic regression analysis did not indicate any relationship between history of previous allergies, hypertension, coronary disease, or chronic obstructive pulmonary disease and the number of premedications.

CONCLUSIONS

The results indicate that there is substantial variability in the type and number of premedications utilized in the management of paclitaxel hypersensitivity reactions. Interventions are needed to decrease the rate of hypersensitivity reactions from weekly paclitaxel infusions.

Paclitaxel induces calcium oscillations via an inositol 1,4,5-trisphosphate receptor and neuronal calcium sensor 1-dependent mechanism

Taxol (Paclitaxel) is an important natural product for the treatment of solid tumors. Despite a well documented tubulin-stabilizing effect, many side effects of taxol therapy cannot be explained by cytoskeletal mechanisms. In the present study submicromolar concentrations of taxol, mimicking concentrations found in patients, induced cytosolic calcium (Ca(2+)) oscillations in a human neuronal cell line. These oscillations were independent of extracellular and mitochondrial Ca(2+) but dependent on intact signaling via the phosphoinositide signaling pathway. We identified a taxol binding protein, neuronal Ca(2+) sensor 1 (NCS-1), a Ca(2+) binding protein that interacts with the inositol 1,4,5-trisphosphate receptor from a human brain cDNA phage display library. Taxol increased binding of NCS-1 to the inositol 1,4,5-trisphosphate receptor. Short hairpin RNA-mediated knockdown of NCS-1 in the same cell line abrogated the response to taxol but not to other agonists stimulating the phosphoinositide signaling pathway. These findings are important for studies involving taxol as a research tool in cell biology and may help to devise new strategies for the management of side effects induced by taxol therapy.

Disodium Cromoglycate Inhibits Capsaicin-Induced Eosinophil Infiltration of Conjunctiva Independent of Mast Cells

PURPOSE

To investigate whether disodium cromoglycate (DSCG) inhibits capsaicin-induced eosinophil infiltration of the conjunctiva independent of mast cells.

METHODS

We administered 5 microl of capsaicin solution (10(-5) M) into the conjunctival sacs of mast cell-deficient W/W(v) mice (12 animals) and wild-type mice (12 animals). As controls, the eyes of 12 wild-type and 12 W/W(v) mice were treated with phosphate-buffered saline. Following treatment, the eyelids and eyeballs were removed en bloc at 3, 9, or 24 h, and were histologically examined. The number of infiltrated eosinophils and the expression of vascular cell adhesion molecule-l (VCAM-1) in the conjunctiva were quantified by the staining method of Hansel and immunohistochemical analysis. We also investigated whether treatment by depletion of neuropeptides or by DSCG administration could suppress the capsaicin-induced eosinophil infiltration of the conjunctiva.

RESULTS

In both W/W(v) and wild-type mice, eosinophil infiltration of conjunctival tissues was observed 3 h after capsaicin administration. In both strains of mice, the number of infiltrated eosinophils increased over time, with VCAM-1 expression on vascular endothelial cells peaking at 9 h after treatment, and decreasing gradually within 24 h after treatment. In both the neuropeptide-depleted and the DSCG-treated groups, eosinophil infiltration and VCAM-1 expression were suppressed in comparison with the nontreated group.

CONCLUSION

DSCG can directly inhibit neuropeptide-induced eosinophil infiltration of the conjunctiva independent of mast cells.

Prophylactic effect of pemirolast, an antiallergic agent, against hypersensitivity reactions to paclitaxel in patients with ovarian cancer

We have previously shown that sensory nerve peptides contribute to the pathogenesis of pulmonary hypersensitivity reactions (HSRs) to paclitaxel in rats. Moreover, pemirolast, an antiallergic agent, reverses the HSRs to paclitaxel, although the mechanism is considered to result from the blockade of paclitaxel-induced release of sensory peptides, rather than the inhibition of histamine release. In the present study, we investigated the preventive effect of pemirolast against acute HSRs in a total of 84 patients who undertook postoperative paclitaxel plus carboplatin chemotherapy every 4 weeks for ovarian cancer. Patients were assigned to receive oral lactose (placebo) or pemirolast (10 mg), 2 hr before paclitaxel infusion. All patients received conventional premedication, including oral diphenhydramine, intravenous ranitidine and intravenous dexamethasone, 30 min before paclitaxel infusion. The HSRs that led to the discontinuance of paclitaxel infusion (grade>or=2) occurred in 5 of 42 patients in placebo group, whereas none of pemirolast-treated 42 patients showed any signs of HSRs. Plasma histamine concentrations were not changed after paclitaxel infusion in either group. Our present findings suggest that pemirolast is potentially useful for prophylaxis of paclitaxel-induced HSRs. In this respect, the use of pemirolast as premedication is expected to be beneficial to the safety management in patients who undergo chemotherapy containing paclitaxel.

Paclitaxel Hypersensitivity Reactions

Several studies have suggested the usefulness of a test dose of paclitaxel to reduce the incidence of hypersensitivity reactions and the resulting cost of drug wastage. The aim of this study was to assess the utility of implementing such a test dose.

METHOD

We retrospectively reviewed the medical charts of patients who had received one or two courses of single-agent paclitaxel or a combination chemotherapy regimen to calculate hypersensitivity reaction incidence and the cost of drug wastage. Thereafter, a paclitaxel test-dose program was routinely implemented during the first and second cycles of paclitaxel treatment for all patients. Hypersensitivity reaction incidence and drug wastage cost were again assessed.

RESULTS

Before the routine use of a test dose, 162 patients received one or two paclitaxel infusions alone or in combination therapy from January 1, 1997 to February 28, 2003. Ten (6.2%) patients experienced a hypersensitivity reaction; one of them was severe. After implementation of the test-dose program, 130 patients received 244 test doses (12 mg paclitaxel/10 mL normal saline) with an intensified premedication regimen at the first and second cycles of chemotherapy from June 28, 2003 to March 2, 2005. Three patients (2.3%) experienced a minor hypersensitivity reaction, one immediately after the test dose and two during infusion of the full dose despite a well-tolerated test dose. Thus, the negative predictive value of the test dose was 98.4%. The overall incidence of hypersensitivity reactions experienced during the first or second cycle of paclitaxel chemotherapy decreased about 63% compared with the incidence before implementation of the test dose (P < 0.20). The test-dose program resulted in a 29% increase in the cost of chemotherapy (approximately 6100 dollars for 130 patients).

CONCLUSION

To our knowledge, this is the largest study ever reported to test the potential cost-saving benefit of the implementation of a paclitaxel test-dose program to prevent hypersensitivity reactions. The results suggest that the routine use of a test dose is not a cost-effective measure.

Similarity and difference in the acute lung injury induced by a radiographic contrast medium and an anticancer agent paclitaxel in rats

Paclitaxel is one of the most frequently used anticancer agents but its use is sometimes limited because of the incidence of severe hypersensitivity reactions. The clinical symptoms of the reactions, including dyspnea and pulmonary edema, are similar to those induced by iodinated contrast medium during radiographic examination. Therefore, the premedication for the prophylaxis of hypersensitivity reactions to paclitaxel is carried out in accordance with that for radiographic contrast medium. In the present study, we compared the effects of paclitaxel and an iodinated radiocontrast medium ioxaglate on vascular permeability and pulmonary function in rats. Both paclitaxel (15 mg/kg) and ioxaglate (4 g iodine/kg) caused perivascular edema, plasma extravasation and decrease in arterial PaO2. Dexamethasone inhibited plasma extravasation induced by the two compounds. In contrast, histamine H1 and H2 antagonists attenuated the effects of ioxaglate without inhibiting those of paclitaxel. On the other hand, a neurokinin NK1 antagonist (LY303870: 0.5 mg/kg) significantly inhibited the pulmonary responses induced by paclitaxel but not by ioxaglate. Therefore, it is suggested that paclitaxel and ioxaglate cause similar acute lung injury but the mechanisms are different between the two compounds, in which histamine and substance P are involved in the pulmonary dysfunction induced by ioxaglate and paclitaxel, respectively. These findings also raise a possibility that more effective premedication is required for the prophylaxis of paclitaxel hypersensitivity.

Role of substance P in hypersensitivity reactions induced by paclitaxel, an anticancer agent

The role of substance P in adverse pulmonary reactions induced by an anticancer agent paclitaxel was investigated in rats and humans who undertook post-operative chemotherapy for ovarian cancer. In rats, paclitaxel caused a marked plasma extravasation and edema in lungs with a concomitant decrease in arterial partial oxygen pressure, which were reversed by an NK1 antagonist LY303870. Substance P level in rat plasma and bronchoalveolar lavage fluid increased after paclitaxel injection. In 13 patients, plasma level of substance P but not histamine significantly (P < 0.05) increased during paclitaxel infusion. Therefore, substance P rather than histamine may be involved in paclitaxel hypersensitivity.