LPS-CXCL10 Predicts Responses to Bortezomib in Myeloma Patients

To identify predictive biomarkers for clinical responses to bortezomib treatment, 0.06 mL of each whole blood without any cell separation procedures was stimulated ex vivo using five agents, and eight mRNAs were quantified. In six centers, heparinized peripheral blood was prospectively obtained from 80 previously treated or untreated, symptomatic multiple myeloma (MM) patients with measurable levels of M-proteins. The blood sample was procured prior to treatment as well as 2-3 days and 1-3 weeks after the first dose of bortezomib, which was intravenously administered biweekly or weekly, during the first cycle. Six stimulant-mRNA combinations; that is, lipopolysaccharide (LPS)-granulocyte-macrophage colony-stimulating factor (GM-CSF), LPS-CXCL chemokine 10 (CXCL10), LPS-CCL chemokine 4 (CCL4), phytohemagglutinin-CCL4, zymosan A (ZA)-GMCSF and ZA-CCL4 showed significantly higher induction in the complete and very good partial response group than in the stable and progressive disease group, as determined by both parametric (t-test) and non-parametric (unpaired Mann-Whitney test) tests. Moreover, LPS-induced CXCL10 mRNA expression was significantly suppressed 2-3 days after the first dose of bortezomib in all patients, as determined by both parametric (t-test) and non-parametric (paired Wilcoxon test) tests, whereas the complete and very good partial response group showed sustained suppression 1-3 weeks after the first dose. Thus, pretreatment LPS-CXCL10 mRNA and/or the six combinations may serve as potential biomarkers for the response to bortezomib treatment in MM patients

Lipopolysaccharide-Induced CXCL10 mRNA Level and Six Stimulant-mRNA Combinations in Whole Blood: Novel Biomarkers for Bortezomib Responses Obtained from a Prospective Multicenter Trial for Patients with Multiple Myeloma.

To identify predictive biomarkers for clinical responses to bortezomib treatment, 0.06 mL of each whole blood without any cell separation procedures was stimulated ex vivo using five agents, and eight mRNAs were quantified. In six centers, heparinized peripheral blood was prospectively obtained from 80 previously treated or untreated, symptomatic multiple myeloma (MM) patients with measurable levels of M-proteins. The blood sample was procured prior to treatment as well as 2-3 days and 1-3 weeks after the first dose of bortezomib, which was intravenously administered biweekly or weekly, during the first cycle. Six stimulant-mRNA combinations; that is, lipopolysaccharide (LPS)-granulocyte-macrophage colony-stimulating factor (GM-CSF), LPS-CXCL chemokine 10 (CXCL10), LPS-CCL chemokine 4 (CCL4), phytohemagglutinin-CCL4, zymosan A (ZA)-GMCSF and ZA-CCL4 showed significantly higher induction in the complete and very good partial response group than in the stable and progressive disease group, as determined by both parametric (t-test) and non-parametric (unpaired Mann-Whitney test) tests. Moreover, LPS-induced CXCL10 mRNA expression was significantly suppressed 2-3 days after the first dose of bortezomib in all patients, as determined by both parametric (t-test) and non-parametric (paired Wilcoxon test) tests, whereas the complete and very good partial response group showed sustained suppression 1-3 weeks after the first dose. Thus, pretreatment LPS-CXCL10 mRNA and/or the six combinations may serve as potential biomarkers for the response to bortezomib treatment in MM patients

Bortezomib-induced inhibition of LPS-induced <i>CXCL10</i> mRNA <i>ex vivo</i>.

<p>Peripheral blood obtained from 3 healthy volunteers was pre-treated with various concentrations of bortezomib for 1 h and then further stimulated with LPS or PBS (as the control) for an additional 4 h. The fold increase in (A) <i>ACTB</i> and (B) <i>CXCL10</i> expression is shown. Each symbol represents a single individual.</p

<i>Ex vivo</i> mRNA induction in blood obtained prior to bortezomib treatment.

<p>The fold increase in (A) LPS-induced <i>GMCSF</i>, (B) ZA-induced <i>GMCSF</i>, (C) LPS-induced <i>CXCL10</i> (top panel), (D) PHA-induced <i>CCL4</i>, (E) LPS-induced <i>CCL4</i> and (F) ZA-induced <i>CCL4</i> (lower panel) mRNA in the CR, VGPR, PR, SD and PD groups is shown. The statistically significant difference between the CR+VGPR and SD+PD groups is shown. t: Student’s <i>t</i>-test, M: Mann-Whitney test. Dotted line: fold increase = 3. Samples showing a fold increase in <i>ACTB</i> (which was > 3) were removed from the analysis. Horizontal bars: the mean values.</p

Patients Demographic and Baseline Characteristics.

<p>CR, complete response; ISS, International Staging System; NE, not evaluable; PD, progressive disease; SD, stable disease; VGPR, very good partial response.</p><p>*Excluded were three patients not evaluable for response.</p><p>^†According to the International Uniform Response Criteria (Durie et al, 2006).</p><p>^‡One patient died of progressive disease early, another received additional chemotherapy, and the third committed suicide.</p><p>Patients Demographic and Baseline Characteristics.</p

LPS-induced <i>CXCL10</i> expression before and after bortezomib treatment.

<p>Each point/line represents the fold increase in LPS-induced <i>CXCL10</i> expression in each patient in the (A) CR+VGPR, (B) PR and (C) SD+PD groups. The statistically significant difference between the pretreatment (D0) and 2–3 days (D2-3) or 1–3 weeks (W1-3) after intravenous administration of the first dose of bortezomib during the first cycle groups is shown. t: Student’s <i>t</i>-test, W: Wilcoxon test.</p