Early magnesium modifications as a surrogate marker of efficacy of cetuximab-based anticancer treatment in KRAS wild-type advanced colorectal cancer patients.

BACKGROUND KRAS wild-type mutational status is necessary but not sufficient to get benefit from epidermal growth factor receptor inhibition. Predictive markers are currently being evaluated. In this study, we investigated early hypomagnesemia as a predictor of efficacy and outcome in terms of time to progression (TtP) and overall survival (OS) in a cohort of patients affected by advanced colorectal adenocarcinoma KRAS wild-type cetuximab-treated. PATIENTS AND METHODS One hundred and forty-three patients affected by stage IV colorectal adenocarcinoma KRAS wild type receiving cetuximab + irinotecan (CTX+IRI) as third-line anticancer treatment and resistant to oxaliplatin- and irinotecan-based chemotherapy were retrospectively included. Magnesium plasma levels were measured before the first day and 7, 14, 21 and 28 days after CTX+IRI infusion. RESULTS The median magnesium basal value showed a statistically significant decrease after the start of CTX+IRI treatment (at 28 days, P < 0.0001). Patients with an early decrease of magnesium levels >50% compared with the basal level had a higher tumor response rate (55.8% versus 16.7%, P < 0.0001), a longer TtP (6.3 versus 3.6, P < 0.0001) and a longer median OS (11.0 versus 8.1, P = 0.002). CONCLUSIONS We have shown that early hypomagnesemia could be a predictor of efficacy and outcome in those patients. Magnesium circulating level is an easy and inexpensive biomarker to routinely be detected in patients treated with cetuximab.

[1]  R. Pearson,et al.  Cetuximab and Chemotherapy as Initial Treatment for Metastatic Colorectal Cancer , 2010 .

[2]  G. Fontanini,et al.  KRAS codon 61, 146 and BRAF mutations predict resistance to cetuximab plus irinotecan in KRAS codon 12 and 13 wild-type metastatic colorectal cancer , 2009, British Journal of Cancer.

[3]  V. Adamo,et al.  Early Magnesium Reduction in Advanced Colorectal Cancer Patients Treated with Cetuximab Plus Irinotecan as Predictive Factor of Efficacy and Outcome , 2008, Clinical Cancer Research.

[4]  G. Tortora,et al.  Inhibition of mTOR pathway by everolimus cooperates with EGFR inhibitors in human tumours sensitive and resistant to anti-EGFR drugs , 2008, British Journal of Cancer.

[5]  A. Lièvre,et al.  KRAS mutations as an independent prognostic factor in patients with advanced colorectal cancer treated with cetuximab. , 2008, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[6]  A. Boninsegna,et al.  Insights Into the Mechanisms Involved in Magnesium-Dependent Inhibition of Primary Tumor Growth , 2007, Nutrition and cancer.

[7]  F. Cavalli,et al.  PTEN loss of expression predicts cetuximab efficacy in metastatic colorectal cancer patients , 2007, British Journal of Cancer.

[8]  R. Labianca,et al.  Nuclear factor-kB tumor expression predicts response and survival in irinotecan-refractory metastatic colorectal cancer treated with cetuximab-irinotecan therapy. , 2007, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[9]  Sabine Tejpar,et al.  Impaired basolateral sorting of pro-EGF causes isolated recessive renal hypomagnesemia. , 2007, The Journal of clinical investigation.

[10]  Manuel Hidalgo,et al.  Expression of epiregulin and amphiregulin and K-ras mutation status predict disease control in metastatic colorectal cancer patients treated with cetuximab. , 2007, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[11]  E. Van Cutsem,et al.  Magnesium wasting associated with epidermal-growth-factor receptor-targeting antibodies in colorectal cancer: a prospective study. , 2007, The Lancet. Oncology.

[12]  A. Russo,et al.  Circulating VEGF reduction, response and outcome in advanced colorectal cancer patients treated with cetuximab plus irinotecan. , 2007, Pharmacogenomics.

[13]  H. Rubin The logic of the Membrane, Magnesium, Mitosis (MMM) model for the regulation of animal cell proliferation. , 2007, Archives of biochemistry and biophysics.

[14]  F. Wolf,et al.  Magnesium and neoplasia: from carcinogenesis to tumor growth and progression or treatment. , 2007, Archives of biochemistry and biophysics.

[15]  G. Wilding,et al.  Cetuximab-induced hypomagnesemia in patients with colorectal cancer. , 2006, Clinical colorectal cancer.

[16]  A. Russo,et al.  Angiogenesis modifications related with cetuximab plus irinotecan as anticancer treatment in advanced colorectal cancer patients. , 2006, Annals of oncology : official journal of the European Society for Medical Oncology.

[17]  A. Lièvre,et al.  KRAS mutation status is predictive of response to cetuximab therapy in colorectal cancer. , 2006, Cancer research.

[18]  B. Vincenzi,et al.  Cetuximab and irinotecan as third-line therapy in advanced colorectal cancer patients: a single centre phase II trial , 2006, British Journal of Cancer.

[19]  Z. Hua Cetuximab Monotherapy and Cetuximab plus Irinotecan in Irinotecan-Refractory Metastatic Colorectal Cancer , 2006 .

[20]  L. Saltz,et al.  Cetuximab therapy and symptomatic hypomagnesemia. , 2005, Journal of the National Cancer Institute.

[21]  P. Jänne,et al.  Responsiveness to cetuximab without mutations in EGFR. , 2005, The New England journal of medicine.

[22]  P. Jänne,et al.  Epidermal growth factor receptor mutations in non-small-cell lung cancer: implications for treatment and tumor biology. , 2005, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[23]  L. Schwartz,et al.  Cetuximab shows activity in colorectal cancer patients with tumors that do not express the epidermal growth factor receptor by immunohistochemistry. , 2005, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[24]  H. Rubin Central roles of Mg2+ and MgATP2- in the regulation of protein synthesis and cell proliferation: significance for neoplastic transformation. , 2005, Advances in cancer research.

[25]  Armando Santoro,et al.  Cetuximab monotherapy and cetuximab plus irinotecan in irinotecan-refractory metastatic colorectal cancer. , 2004, The New England journal of medicine.

[26]  Neal J Meropol,et al.  Phase II trial of cetuximab in patients with refractory colorectal cancer that expresses the epidermal growth factor receptor. , 2004, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[27]  E. Kohn,et al.  Mg++-induced endothelial cell migration: Substratum selectivity and receptor-involvement , 2004, Angiogenesis.

[28]  T Theophanides,et al.  Magnesium-DNA interactions and the possible relation of magnesium to carcinogenesis. Irradiation and free radicals. , 2002, Critical reviews in oncology/hematology.

[29]  K. Shivakumar,et al.  Magnesium deficiency-related changes in lipid peroxidation and collagen metabolism in vivo in rat heart. , 1997, The international journal of biochemistry & cell biology.

[30]  R. Whang,et al.  Magnesium Homeostasis and Clinical Disorders of Magnesium Deficiency , 1994, The Annals of pharmacotherapy.

[31]  M. Pike,et al.  Design and analysis of randomized clinical trials requiring prolonged observation of each patient. II. analysis and examples. , 1977, British Journal of Cancer.

[32]  E. Kaplan,et al.  Nonparametric Estimation from Incomplete Observations , 1958 .

[33]  D.,et al.  Regression Models and Life-Tables , 2022 .