Pharmacokinetic and pharmacogenetic determinants of the activity and toxicity of irinotecan in metastatic colorectal cancer patients

Rouits, Elisabeth; Charasson, Virginie; Pétain, Aurélie; Boisdron-Celle, Michelle; Delord, Jean‐Pierre; Fonck, Marianne; Laurand, Armelle; Poirier, A; Morel, Alain; Chatelut, Étienne; Robert, Jacques; Gamelin, Érick

doi:10.1038/sj.bjc.6604673

Cited by 54 publications

(43 citation statements)

References 31 publications

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“…37 Continuous generation of SN-38G allows sustained high levels of SN-38G (5-25 fold higher than SN-38) in the circulation of patients. [9][10][11][12] Hydrolysis of SN-38G by A second way by which bG activation of SN-38G differs from commonly investigated prodrug/enzyme combinations is that most activating enzymes, such as herpes simplex virus thymidine kinase for ganciclovir, cytosine deaminase for 5-FC, nitroreductase for CB1954 and carboxypeptidase G2 for ZD2767P, are expressed intracellularly because the anticancer prodrugs can readily enter transduced cells by passive or facilitated transport. Glucuronides, on the other hand, do not efficiently enter cells, resulting in poor activation of glucuronide prodrugs when bG is expressed in the cytosol of mammalian cells.…”

Section: Discussionmentioning

confidence: 99%

“…7 However, a large fraction of SN-38 is further metabolized in the liver by members of the UDP-glucuronosyltransferase 1A family to the inactive glucuronide metabolite (SN-38G). 8 The serum concentration of SN-38G can exceed the concentration of SN-38 in the circulation by up to 25-fold, [9][10][11][12] thereby reducing the exposure of tumor cells to Prodrug activating gene therapy is an investigational approach to enhance the effectiveness of cancer chemotherapy that entails delivery of an enzyme encoding gene that can catalytically convert an anticancer prodrug to a cytotoxic antineoplastic agent. 13 For example, expression of carboxyesterases in cancer cells can catalyze the hydrolysis of CPT-11 to SN-38 and enhance CPT-11 antitumor activity.…”

Section: Introductionmentioning

confidence: 99%

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Enhancement of CPT-11 antitumor activity by adenovirus-mediated expression of β–glucuronidase in tumors

Huang

Prijovich

et al. 2011

Cancer Gene Ther

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CPT-11 is a clinically important prodrug that requires conversion into the active metabolite SN-38, a potent topoisomerase I poison, for antitumor activity. However, SN-38 is rapidly metabolized to the inactive SN-38 glucuronide (SN-38G) in the liver, which reduces the amount of SN-38 available for killing cancer cells. Here, we investigated if local expression of b-glucuronidase (bG) on cancer cells to catalytically convert SN38G to SN38 could enhance the antitumor activity of CPT-11. bG was tethered on the plasma membrane of three different human cancer cell lines: human colon carcinoma (LS174T), lung adenocarcinoma (CL1-5) and bladder carcinoma (EJ). Surface b-glucuronidase-expressing cells were 20 to 80-fold more sensitive to SN-38G than the parental cells. Intravenous CPT-11 produced significantly greater suppression of CL1-5 and LS174 T tumors that expressed bG as compared with unmodified tumors. Furthermore, an adenoviral vector expressing membrane-tethered bG (Ad.bG) increased the sensitivity of cancer cells to SN-38G even at multiplicity of infections as low as 0.16, indicating bystander killing of non-transduced cancer cells. Importantly, intratumoral injection of Ad.bG significantly enhanced the in vivo antitumor activity of CPT-11 as compared with treatment with CPT-11 or Ad vectors alone. This study shows that Ad.bG has potential to boost the therapeutic index of CPT-11.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enhancement of CPT-11 antitumor activity by adenovirus-mediated expression of β–glucuronidase in tumors

Huang

Prijovich

et al. 2011

Cancer Gene Ther

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“…Many studies abroad suggest that UGT1A1 genotypes are strongly associated with severe neutropenia, and could be used to identify cancer patients predisposed to the severe toxicity of irinotecan (Innocenti et al, 2004;Rouits et al, 2008;EGAPP Working Group, 2009). Some indicate that the risk of leucopenia or neutropenia in CPT-11-based chemotherapy is higher as the increase on dosage, especially in those who are administrated with medium or high irinotecan doses (>125mg/m 2 ) (Hu et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

Clinical Observations on Associations Between the UGT1A1 Genotype and Severe Toxicity of Irinotecan

Lu¹,

Huang²,

Wu³

et al. 2014

Asian Pacific Journal of Cancer Prevention

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Background: Severe toxicity is commonly observed in cancer patients receiving irinotecan (CPT-11) UDPglucuronosyltransferase1A1 (UGT1A1) catalyzes the glucuronidation of the active metabolite SN-38 but the relationship between UGT1A1 and severe toxicity remains unclear. Our study aimed to assess this point to guide clinical use of CPT-11. Materials and Methods: 89 cancer patients with advanced disease received CPT-11-based chemotherapy for at least two cycles. Toxicity, including GI and hematologic toxicity was recorded in detail and UGT1A1 variants were genotyped. Regression analysis was used to analyse relationships between these variables and tumor response. Results: The prevalence of grade III-IV diarrhea was 10.1%, this being more common in patients with the TA 6/7 genotype (5 of 22 patients, 22.7%) (p<0.05). The prevalence of grade III-IV neutropenia (p p<0.05. Conclusions: Our study support the conclusion that patients with a UGT1A1*28 allele (s) will suffer an increased risk of severe irinotecan-induced diarrhea, whether with mid-or low-dosage. However, the UGT1A1*28 allele (s) did not increase severe neutropenia. Higher serum of CPT-11.

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Section: Sirmentioning

confidence: 99%

“…The recent work by Rouits et al evaluates the role of the polymorphisms of two enzymes involved in irinotecan metabolism: UGT1A1, responsible for glucuronisation and disposal of its active metabolite SN-38; carboxylesterase-2 (CES2), responsible for SN-38 formation. CYP3A4 activity, responsible for irinotecan transformation into the inactive compounds APC and NPC, has been indirectly estimated by urinary 6b-hydroxycortisol/cortisol ratio, and can be influenced by many ambiental factors (Rouits et al, 2008).As authors say, UGT1A1 variants affect only haematological toxicity. An earlier, larger trial had similar results, but was statistically significant only for the first cycle and did not correlate with necessity of dose reduction (Toffoli et al, 2006).…”

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confidence: 99%

Irinotecan toxicity: genes or intestinal microflora?

2009

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Sir,As research advances, a growing body of evidence shows that the individual response to any drug, i.e. effectiveness and toxicity, may be influenced by genetic polymorphisms. In the case of anticancer chemotherapeutic agents, characterised by a low therapeutic index, pharmacogenomic studies could stratify patients for expected response and adverse effects, potentially allowing more rational prescriptions.Among various drugs, irinotecan has been extensively studied. Actually it is a prodrug affected by two main dose-limiting toxicities: neutropoenia and delayed diarrhoea. The recent work by Rouits et al evaluates the role of the polymorphisms of two enzymes involved in irinotecan metabolism: UGT1A1, responsible for glucuronisation and disposal of its active metabolite SN-38; carboxylesterase-2 (CES2), responsible for SN-38 formation. CYP3A4 activity, responsible for irinotecan transformation into the inactive compounds APC and NPC, has been indirectly estimated by urinary 6b-hydroxycortisol/cortisol ratio, and can be influenced by many ambiental factors (Rouits et al, 2008).As authors say, UGT1A1 variants affect only haematological toxicity. An earlier, larger trial had similar results, but was statistically significant only for the first cycle and did not correlate with necessity of dose reduction (Toffoli et al, 2006). Carboxylesterase-2 variants are not significantly correlated with any parameter, whereas urinary 6b-hydroxycortisol/cortisol ratio seemed as a global predictor of toxicity including diarrhoea, but it could simply reflect hepatic dysfunction and therefore needs further evaluation.These results are somewhat disappointing. Chemotherapyinduced neutropoenia can be easily managed with recombinant myeloid growth factors if necessary, whereas diarrhoea cannot be reliably predicted and is sometimes severe. The complex pharmacology of irinotecan can actually be influenced by many factors, both genetic and nongenetic. In particular its action on the intestinal mucosa is strongly influenced by local environmental factors, especially intestinal microflora.Actually SN-38 glucuronide, excreted in faeces, can be processed by bacterial b-glucuronidase and converted back to SN-38, which can damage intestinal epithelial cells and thus induce delayed diarrhoea. This hypothesis have been suggested by Takasuna et al who showed that intestinal damage due to irinotecan administration is more pronounced in gut segments with high b-glucuronidase activity (Takasuna et al, 1996).A subsequent study specifically aimed at investigating the role of intestinal microflora in irinotecan-induced diarrhoea compared holoxenic and germ-free mice. Irinotecan lethal dose is more than twice higher in the second group, which also exhibited significantly less diarrhoea. Intestinal damage as shown by histological examination reflected bacterial distribution along the gut, in particular it was negligible in germ-free animals treated at 60 mg kg À1 d À1 for 4 days, the lethal dose for holoxenic controls (Brandi et al, 2006).The poor predic...

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Pharmacokinetic and pharmacogenetic determinants of the activity and toxicity of irinotecan in metastatic colorectal cancer patients

Cited by 54 publications

References 31 publications

Enhancement of CPT-11 antitumor activity by adenovirus-mediated expression of β–glucuronidase in tumors

Enhancement of CPT-11 antitumor activity by adenovirus-mediated expression of β–glucuronidase in tumors

Clinical Observations on Associations Between the UGT1A1 Genotype and Severe Toxicity of Irinotecan

Irinotecan toxicity: genes or intestinal microflora?

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