Doxorubicin and 5-fluorouracil plasma concentrations and detectability in parotid saliva

Multiphase electroextraction as a simple and fast sample preparation alternative for the digital image determination of doxorubicin in saliva

Monitoring chemotherapeutic drugs in biological fluids is, in many cases, extremely important for dose adjustment, the maintenance of therapies, and the control of side effects. In this work, a method for determining the doxorubicin in saliva by digital image analysis (DIA) was optimised and validated. Images from a paper point were obtained using a conventional and cheap flatbed scanner at a 600 ppp resolution. The RGB data channels were obtained from the images in a region of 15 × 15 pixels around the sorbent vertex. The paper point was used as sorbent material in sample preparation using a multiphase electroextraction system. Following optimisation using a Doehlert experimental design, the method was able to simultaneously extract 66 samples in 20 min. The high selectivity of the electric field associated with the sorption capacity of the cellulosic material allowed the chemotherapy drug to be pre-concentrated and quantified in a range between 50 and 500 μg L^-1 (R² > 0.98). The method also exhibited adequate parameters (limits of detection and quantification, recovery, and precision) indicating its potential application in the monitoring of doxorubicin and similar drugs in saliva.

New insights into the mechanisms underlying 5-fluorouracil-induced intestinal toxicity based on transcriptomic and metabolomic responses in human intestinal organoids

5-Fluorouracil (5-FU) is a widely used chemotherapeutical that induces acute toxicity in the small and large intestine of patients. Symptoms can be severe and lead to the interruption of cancer treatments. However, there is limited understanding of the molecular mechanisms underlying 5-FU-induced intestinal toxicity. In this study, well-established 3D organoid models of human colon and small intestine (SI) were used to characterize 5-FU transcriptomic and metabolomic responses. Clinically relevant 5-FU concentrations for in vitro testing in organoids were established using physiologically based pharmacokinetic simulation of dosing regimens recommended for cancer patients, resulting in exposures to 10, 100 and 1000 µM. After treatment, different measurements were performed: cell viability and apoptosis; image analysis of cell morphological changes; RNA sequencing; and metabolome analysis of supernatant from organoids cultures. Based on analysis of the differentially expressed genes, the most prominent molecular pathways affected by 5-FU included cell cycle, p53 signalling, mitochondrial ATP synthesis and apoptosis. Short time-series expression miner demonstrated tissue-specific mechanisms affected by 5-FU, namely biosynthesis and transport of small molecules, and mRNA translation for colon; cell signalling mediated by Rho GTPases and fork-head box transcription factors for SI. Metabolomic analysis showed that in addition to the effects on TCA cycle and oxidative stress in both organoids, tissue-specific metabolic alterations were also induced by 5-FU. Multi-omics integration identified transcription factor E2F1, a regulator of cell cycle and apoptosis, as the best key node across all samples. These results provide new insights into 5-FU toxicity mechanisms and underline the relevance of human organoid models in the safety assessment in drug development.

Membrane Transporters in Human Parotid Gland-Targeted Proteomics Approach

Salivary glands provide secretory functions, including secretion of xenobiotics and among them drugs. However, there is no published information about protein abundance of drug transporters measured using reliable protein quantification methods. Therefore, mRNA expression and absolute protein content of clinically relevant ABC (n = 6) and SLC (n = 15) family member transporters in the human parotid gland, using the qRT-PCR and liquid chromatography‒tandem mass spectrometry (LC−MS/MS) method, were studied. The abundance of nearly all measured proteins ranged between 0.04 and 0.45 pmol/mg (OCT3 > MRP1 > PEPT2 > MRP4 > MATE1 > BCRP). mRNAs of ABCB1, ABCC2, ABCC3, SLC10A1, SLC10A2, SLC22A1, SLC22A5, SLC22A6, SLC22A7, SLC22A8, SLCO1A2, SLCO1B1, SLCO1B3 and SLCO2B1 were not detected. The present study provides, for the first time, information about the protein abundance of membrane transporters in the human parotid gland, which could further be used to define salivary bidirectional transport (absorption and secretion) mechanisms of endogenous compounds and xenobiotics.

Analysis of saliva samples from oncological patients treated with 5-fluorouracil and leucovorin calcium by scanning electron microscopy with energy dispersive system

This work presents a chemical and morphological analysis of samples of saliva taken from patients who were under treatment with intravenous chemotherapy with 5-fluorouracil and leucovorin calcium. Samples of saliva were extracted from fifteen patients during the three stages of the treatment: The initial stage (previous to the chemotherapy), the intermediate stage (during the chemotherapy), and the final stage (twenty-one days after finishing the treatment). An amount of 50 μl was collected in each visit. Chemical contrast images were taken by means of scanning electron microscopy, and X-ray characteristic spectra were obtained from all the studied samples by using an energy dispersive system from all the studied samples. Images that correspond to the intermediate stage showed important differences with respect to the initial and final stages. In addition, X-ray spectra provided information about the present elements in saliva and their relative abundance allowed us to determine variations in the chemical composition. The backscattered electron images and X-ray spectra from the intermediate stage showed clusters of crystals with fluorine content higher than those obtained in initial and final stages. This fact probably indicates the passage of metabolites of 5-fluorouracil and leucovorin calcium from the plasma to the oral cavity. This finding enhances the hypothesis proposed by other authors about the secondary effects of the drugs on the stomatognathic system such as oral mucositis, dysgeusia, and xerostomia with or without hyposalivation.

Metformin, at concentrations corresponding to the treatment of diabetes, potentiates the cytotoxic effects of carboplatin in cultures of ovarian cancer cells

The use of the type 2 diabetics drug metformin has been correlated with enhanced progression-free survival in ovarian cancer. The literature has speculated that this enhancement is due to the high concentration of metformin directly causing cancer cell death. However, this explanation does not fit with clinical data reporting that the women exposed to constant micromolar concentrations of metformin, as present in the treatment of diabetes, respond better to chemotherapy. Herein, our aim was to examine whether micromolar concentrations of metformin alone could bring about cancer cell death and whether micromolar metformin could increase the cytotoxic effect of commonly used chemotherapies in A2780 and SKOV3 cell lines and primary cultured cancer cells isolated from the peritoneal fluid of patients with advanced ovarian cancer. Our results in cell lines demonstrate that no significant loss of viability or change in cell cycle was observed with micromolar metformin alone; however, we observed cytotoxicity with micromolar metformin in combination with chemotherapy at concentrations where the chemotherapy alone produced no loss in viability. We demonstrate that previous exposure and maintenance of metformin in conjunction with carboplatin produces a synergistic enhancement in cytotoxicity of A2780 and SKOV3 cells (55% and 43%, respectively). Furthermore, in 5 (44%) of the 11 ovarian cancer primary cultures, micromolar metformin improved the cytotoxic response to carboplatin but not paclitaxel or doxorubicin. In conclusion, we present data that support the need for a clinical study to evaluate the adjuvant maintenance or prescription of currently approved doses of metformin during the chemotherapeutic treatment of ovarian cancer.

CE-LIF method for the separation of anthracyclines: application to protein binding analysis in plasma using ultrafiltration

Anthracyclines are chemotherapeutic drugs that are widely used in the treatment of cancers such as lung and ovarian cancers. The simultaneous determination of the anthracyclines, daunorubicin, doxorubicin and epirubicin, was achieved using CE coupled to LIF, with an excitation and emission wavelength of 488 and 560 nm, respectively. Using a borate buffer (105 mM, pH 9.0) and 30% MeOH, a stable and reproducible separation of the three anthracyclines was obtained. The method developed was shown to be capable of monitoring the therapeutic concentrations (50-50 000 ng/mL) of anthracyclines. LODs of 10 ng/mL, calculated at an S/N = 3, were achieved. Using the CE method developed, the in vitro protein binding to plasma was measured by ultrafiltration, and from this investigation the estimated protein binding was determined to be in the range of 77-94%.

Determination of epirubicin and its metabolite epirubicinol in saliva and plasma by HPLC

We present a high-performance liquid chromatography (HPLC) method suitable for the analysis of epirubicin and its metabolite epirubicinol in saliva and plasma. Preparation of saliva and plasma samples was performed by extraction of analytes with a chloroform:2-propanol mixture (6:1, vol/vol) and evaporation of the organic phase to dryness under vacuum at a temperature of approximately 45 degrees C. The chromatographic analysis was carried out by reversed-phase isocratic elution of the anthracyclines with a Chromsep stainless steel HPLC column (150 x 4.6 mm I.D.) filled with Nucleosil 100 S C(18) material, particle size 5 micro m. The detection was accomplished by spectrofluorimetry at excitation and emission wavelengths of 474 and 551 nm, respectively. The anthracyclines eluted within 10 min of injection, and the method appeared to be specific. The method is linear over a concentration range of 5 to 1000 micro g/L for epirubicin and 2 to 400 micro g/L for epirubicinol (r > 0.99) in both saliva and plasma. The recoveries from saliva and plasma of epirubicin, epirubicinol, and the internal standard doxorubicin were 88.9 and 69.0%, 87.6 and 77.3%, and 80 and 67.9%, respectively. The lower limit of quantification was 5 micro g/L for epirubicin and 2 micro g/L for epirubicinol. The method proved to be precise and accurate, as the within-day and between-day coefficients of variation were less than 10%. Overall results indicate that our method is suitable for the bioanalysis of epirubicin and epirubicinol in saliva as well as plasma.

The Potential for an Interaction between MRP2 (ABCC2) and Various Therapeutic Agents: Probenecid as a Candidate Inhibitor of the Biliary Excretion of Irinotecan Metabolites

Irinotecan hydrochloride (CPT-11) is an anticancer agent with unpredictable bouts of diarrhea as a dose-limiting toxic side-effect. Since the biliary excretion of its active metabolite (SN-38) and SN-38 glucuronide (SN38-Glu), which are mediated by the multidrug resistance associated protein-2 (MRP2/ABCC2), has been proposed to be related to this gastrointestinal toxicity, we have attempted here to examine the potential of various therapeutic agents to interact with the biliary excretion in order to identify MRP2 inhibitors to prevent this toxicity. The inhibition constants (K(i)) of 26 compounds were examined for the transport of a typical MRP2 substrate in isolated canalicular membrane vesicles. Of these, 13 compounds inhibited the transport with K(i) values from 0.0461 to 281 microM. Three inhibitors (probenecid, sulfobromophthalein and glycyrrhizin) were also found to inhibit the biliary excretion of SN-38 and SN38-Glu in rats in vivo, and the degrees of inhibition were compatible with the estimated values based on the ratios of K(i) and unbound concentrations in circulating plasma. A similar estimation of the potential inhibitory effect in human was also examined by considering both the K(i) of each therapeutic agent and its unbound concentration both in circulating plasma and the inlet to the liver. The predicted degrees of inhibition by most compounds were minimal whereas approximately 75% inhibition was predicted for probenecid. Thus, probenecid may be a candidate which can be used clinically to inhibit the biliary excretion of CPT-11 metabolites, whereas an interaction between most of the other compounds and MRP2 is more unlikely.

Plasma and salivary pharmacokinetics of 5-fluorouracil (5-FU) in patients with metastatic colorectal cancer receiving 5-FU bolus plus continuous infusion with high-dose folinic acid

The comparative saliva/plasma pharmacokinetics of 5-fluorouracil (5-FU) were investigated in 21 patients with metastatic colorectal cancer receiving high-dose folinic acid (LV (leucovorin) 200 mg/m2) followed by 5-FU bolus (400 mg/m2) and continuous infusion (600, 750, 900 or 1200 mg/m2) on days 1 and 2. Quantitation of unchanged drug was assessed by a highly specific high-performance liquid chromatographic method. Large patient-to-patient variations in plasma and saliva 5-FU concentrations were observed. Saliva pharmacokinetics could be described using a bi-exponential pattern. The half-life of the rapid phase averaged 8.0 min, and was of the same order of magnitude as the 5-FU elimination half-life determined from plasma data. The half-life of the terminal part of the curve averaged 8 h; such decrease in salivary concentrations could be due to changes in salivary gland function caused by 5-FU, which results in reduced salivary flow rate. Between individual 5-FU concentrations in parotid saliva and plasma a statistically significant straight line could be fitted with a coefficient of correlation of 0.675. Moreover, the risk of developing 5-FU-related mucositis was significantly linked to 5-FU salivary exposure. Diarrhoea was the most frequent toxicity encountered during the trial.

Doxorubicin and doxorubicinol plasma concentrations and excretion in parotid saliva

The pharmacokinetics of doxorubicin (DOX) and doxorubicinol (DOXol) was studied in six patients with various advanced neoplastic diseases who received 28-72 mg/m2 DOX (nine courses). Plasma and parotid saliva were collected over a 48-h period, and DOX and DOXol were quantified by high-performance liquid chromatography with fluorescence detection. As reported previously, a wide range of plasma levels were found among our patients. It appears that in addition to being quickly cleared from the plasma, both DOX and DOXol are excreted in detectable amounts in parotid saliva, a route of elimination that has been given little attention, if any. Excretion in the saliva exposes the mucosa of the upper gastrointestinal tract to drug and may play a role in causing stomatitis in patients receiving DOX by the i.v. route. Since huge interindividual and pronounced intraindividual differences were found in S/P ratios that mostly were not systematically related to the plasma drug concentration, the concentration in parotid saliva was not useful in predicting the level of free DOX and DOXol in plasma. For the parent drug and its metabolite, the S/P ratios increased significantly with time during the 48-h period after dosing.

Chronopharmacokinetics of doxorubicin in patients with breast cancer

The chronopharmacokinetics of doxorubicin (DOX) has been studied in 18 patients suffering from breast cancer. They received combined chemotherapy including DOX (50 mg/m2 as an iv bolus), given at two different times (09.00 h or 21.00 h). The two randomized courses of the protocol were given to each patient at a four week interval. The total body clearance (CL) of DOX was significantly decreased when the drug was administered at 21.00 h, resulting in a longer elimination half-life and an increase in AUC. The renal clearance of DOX did not differ at the different times of administration, and it appears that the decrease in CL was related to a change in hepatic blood flow. The volume of distribution of the drug was not changed.

Salivary passage of 5-fluorouracil during continuous infusion

Plasmatic and salivary concentrations of 5-FU were investigated in ten patients given 5-day continuous infusions of 5-fluorouracil (5-FU) (1 g/m2/day). Measurable concentrations of salivary 5-FU were scattered ranging from 6 to 100 ng/ml. Between individual 5-FU concentrations in saliva and plasma the coefficient of correlation was low. The theoretically predicted ratios of 5-FU concentrations in saliva over those in plasma, calculated as a function of salivary pH, did not correlate with the observed ratios, the majority of which ranged between 0.1 and 0.5. Noteworthy, 8 of 10 patients exhibited a more or less pronounced increase in 5-FU salivary excretion during 5-day continuous i.v. infusions.

Clinical pharmacokinetics of doxorubicin

Doxorubicin (adriamycin) has a very wide antitumour spectrum, compared with other anticancer drugs; however, except for Hodgkin's disease, it is not associated with curative chemotherapy. Doxorubicin has been in clinical use for more than 2 decades, and only recently has it been recognised that the cytotoxic effect is produced at the cellular level by multiple mechanisms which have not yet been conclusively identified. Key factors are a combination of doxorubicin-induced free radical formation due to metabolic activation, deleterious actions at the level of the membrane, and drug-intercalation into DNA. Multiple aspects of the clinical pharmacokinetics of this drug have been described. Wide interpatient variations in plasma pharmacokinetics have been noted, but without firm relation to clinical outcome. An apparent volume of distribution of approximately 25 L/kg points to extensive uptake by tissues. Up to several weeks after administration, significant concentrations of doxorubicin have been found in haematopoietic cells and in several other tissues. The maximum cellular doxorubicin concentrations reached in vivo remain significantly below those at which all clonogenic leukaemic cells are killed in vitro. Doxorubicin has been administered as frequent (weekly) low doses, single high doses, and as a continuous infusion. The optimal schedule with respect to tumour cytotoxicity and dose-limiting side effects such as myelosuppression or cardiotoxicity, has never been investigated in a prospective, randomised manner. Clinical trials large enough to study optimal, and possibly individualised, doxorubicin chemotherapy need to be performed. This review summarises pharmacological and pharmacodynamic data of doxorubicin, and discusses these in relation to possible improvement of its therapeutic index. Furthermore, drug interactions, dose-response relationships, mechanisms of action, multidrug resistance, and treatment scheduling are discussed in the perspective of the development of novel treatment strategies.

Nonlinear pharmacokinetic characteristics of 5-fluorouracil (5-FU) in colorectal cancer patients

The nonlinear disposition kinetics of 5-fluorouracil (5-FU) were investigated in 6 patients with colorectal carcinoma. Each patient randomly received two single, intravenous doses of 5-FU (7.5 and 15 mg/kg) on separate days. Venous blood and urine samples were collected just prior to and for 5 h after drug administration. In addition to the kinetic studies, the in vitro whole blood/plasma concentration ratio and stability of 5-FU at 37 degrees C were determined in whole blood from normal volunteers and from 5 patients with colorectal carcinoma. A disproportionate increase in area under the curve and corresponding decrease in total body clearance with increasing dose was observed suggesting dose-dependent behavior of 5-FU. Doubling the dose was accompanied by a 36% decrease in nonrenal clearance but no apparent change in renal clearance. Therefore, the mechanism for dose-dependent elimination appears to be primarily associated with nonrenal processes. The mean 5-FU half-life following the high dose was nearly twice as long as that observed for the low dose (12.3 versus 6.2 min). The log-linear decline in plasma concentrations and increase in half-life with dose suggest the potential role of product-inhibition as an explanation for the observed nonlinearity in 5-FU elimination. The present study demonstrates that 5-FU degrades when incubated in whole blood. This most likely reflects metabolism in red blood cells or other blood-formed elements since 5-FU was stable in plasma. Although degradation in whole blood occurs, the estimated whole blood clearance does not contribute significantly to the observed total body clearance value. The findings suggest the possibility of pulmonary clearance of 5-FU.

Effects of cancer chemotherapy on the human aerobic oropharyngeal flora

Since various agents used in cancer chemotherapy exhibit antimicrobial activity in vitro, we performed sequential quantitative cultures of saline gargles obtained from patients receiving cancer chemotherapy to determine if such chemotherapy alters the composition of the aerobic oropharyngeal flora. When we compared results of cultures obtained from 12 patients just before and at various times after receiving courses of cancer chemotherapy, we observed small, though significant reductions in the numbers of total bacteria, alpha-hemolytic streptococci and inhibitory streptococci two to seven days after courses of chemotherapy. A concomitant increase in the percentage of patients colonized by gram-negative bacilli occurred. Of the chemotherapeutic agents used to treat our subjects, only doxorubicin exhibited antimicrobial activity in vitro. All four alpha-hemolytic streptococci, but none of the seven strains of gram-negative bacilli examined, were inhibited by doxorubicin at concentrations of less than or equal to 12.5 mg/l. Doxorubicin had a modest enhancing effect on in vitro adherence of gram-negative bacilli to human embryonic lung cells. These data suggest that cancer chemotherapy might play a role in colonization of cancer patients by gram-negative bacilli by creating a microbiologic vacuum conducive to such colonization. In this way, cancer chemotherapy might contribute to the high incidence of gram-negative bacillary pneumonia among patients with malignant neoplasms.