Low miR‑210 and CASP8AP2 expression is associated with a poor outcome in pediatric acute lymphoblastic leukemia
Affiliations: Department of Pediatrics, Beijing Tongren Hospital, Capital Medical University, Beijing 100176, P.R. China, Key Laboratory of Major Diseases in Children, Ministry of Education, Department of Hematology, Beijing Children's Hospital, Capital Medical University, Beijing 100045, P.R. China
- Published online on: October 20, 2017 http://doi.org/10.3892/ol.2017.7229
- Pages: 8072-8077
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Acute lymphoblastic leukemia (ALL) is the most common type of pediatric cancer, accounting for ~25% of all malignancies diagnosed in children <15 years (1). Although the outcome of childhood ALL has markedly improved with advancements in risk-adapted chemotherapy and supportive care (2), between 15 and 20% of patients eventually relapse (3) and recurrent ALL remains the primary obstacle in improving the cure rate and decreasing mortality (4).
Minimal residual disease (MRD) in the early stages of treatment has been widely recognized as one of the most powerful prognostic indicators. However, not all patients with positive MRD relapse and certain patients with negative MRD may relapse. To avoid inadequate therapy for high-risk patients and over-treatment for low-risk patients (5人人彩票登入,备用,官方网址), novel prognostic indicators are urgently required for risk refinement.
An independent study has indicated that microRNA (miR)-210 is consistently and predominantly upregulated in hypoxic states (6). By acting on target genes, miR-210 is involved in a range of physiological and pathological processes (7–9). In our previous study (10), it was demonstrated that miR-210 is an independent prognostic factor for pediatric ALL and that low miR-210 expression (threshold value, 3.8243) is a good predictor for relapse and induction failure in childhood ALL.
Caspase 8-associated protein 2 (CASP8AP2), a component of Cajal bodies, is an essential factor in regulating histone gene transcription, apoptosis and S phase progress (11–13). Flotho et al (14) demonstrated that decreased CASP8AP2 expression is markedly associated with increased rates of MRD and hematological relapse. Kim et al (15) demonstrated that CASP8AP2 is a target of miR-210 in bone marrow-derived mesenchymal stem cells. However, an association between expression levels in ALL cells was not identified.
In the present study, the clinical significance of CASP8AP2 and the association between CASP8AP2 and miR-210 was analyzed. In addition, the prognostic value of combined detection of miR-210 and CASP8AP2 expression was determined.
Materials and methods
Patients and treatment
Between March 2008 and July 2010, 203 children with newly diagnosed ALL were enrolled in the Chinese Children's Leukemia Group (CCLG)-ALL 2008 protocol at Beijing Children's Hospital. Criteria for patient inclusion were ≥70% leukemic cells in diagnostic bone marrow (BM) samples (16), treatment according to the CCLG-ALL 2008 protocol (17人人彩票登入,备用,官方网址) and sufficient BM sample for total RNA/microRNA (miRNA) extraction. A total of 112 children with ALL were excluded from analysis.
On the basis of these criteria, 91 patients (median age, 5 years; range, 1.0–14 years) were included in the present study (57 boys and 34 girls), with 81 cases of B cell precursor ALL (BCP-ALL) and 10 cases of T cell ALL (T-ALL). The median follow-up time was 37.2 months (range, 1.0–50.0 months). A total of 11 patients suffered from BM relapse or induction failure and all succumbed between 3 and 11 months after relapse or induction failure. A further 2 patients succumbed due to severe infection and the remaining 78 patients were in continuous complete remission (CCR). BM samples obtained from 5 ALL patients in CCR for >5 years (control group) were used as calibrators (18).
人人彩票登入,备用,官方网址the cclg-all 2008 protocol was approved by the beijing children's hospital institutional ethics committee and written informed consent was obtained by the patients' guardians.
miRNA isolation, reverse transcription and determination of miR-210 expression
Total miRNA was extracted using the mirVana miRNA Isolation kit (Ambion; Thermo Fisher Scientific, Inc., Waltham, MA, USA) according to the manufacturer's protocol as in our previous study (10). Collected miRNA was stored at −80°C.
Reverse transcription-quantitative polymerase chain reaction (RT-qPCR) was performed to determine miR-210 expression. Laboratory procedures and experimental details were as described in a previous study (10).
RNA isolation and cDNA synthesis
mononucleated bm cells were isolated by ficoll-hypaque density-gradient centrifugation (md pacific biotechnology co., ltd., tianjin, china) and stored at −80°c until use. total rna was extracted within 2 weeks using trizol reagent according to the manufacturer's protocol (invitrogen; thermo fisher scientific, inc.). mrnas were reverse-transcribed into cdnas using random hexamers and moloney murine leukemia virus reverse transcriptase (promega corporation, madison, wi, usa) according to the manufacturer's protocol.
Quantitative analysis of CASP8AP2 expression
CASP8AP2 expression was detected using RT-qPCR. The primers and TaqMan probes, which were designed using Primer Express (version 3.0; Applied Biosystems; Thermo Fisher Scientific, Inc.) are listed in Table I. A TaqMan probe of the Abelson (ABL) gene was used as an internal control and associated primer sequences are described previously (19).
The reaction mixture contained TaqMan Master ROX mix (6.25 µl), 10 pmol each primer, 2.5 pmol probe, cDNA template (1 µl) and deionized water to a total volume of 12.5 µl. The reaction was performed at 95°C for 10 min, followed by 50 cycles of 15 sec at 95°C and 1 min at 60°C on a 7500 Real Time PCR system (Applied Biosystems; Thermo Fisher Scientific, Inc.). Each sample was detected in triplicate. CASP8AP2 expression levels were calculated using the 2−ΔΔCq method and are presented as fold change compared with the control group (20).
Detection of MRD
MRD monitoring was performed by qPCR at the end of induction therapy (day 33). Patient-specific immunoglobulin (Ig) and T cell receptor (TCR) gene rearrangements, including IgH, IgK, IgL, Kde, TCRB, TCRG and TCRD, were used as qPCR targets for quantitative assessment of MRD. Detection methods were as previously described (21).
A receiver operating characteristic (ROC) curve was used to assess the predictive value of CASP8AP2 expression for relapse. Relapse-free survival (RFS) was defined as the time from the diagnostic date through the date of relapse at any site. Event-free survival (EFS) was estimated from the date of diagnosis to the date of induction failure, relapse, second tumor or mortality. Overall survival (OS) was defined as the time between diagnosis and mortality or last contact with the patient in CCR. Kaplan-Meier estimator survival analysis was used to determine the differences in RFS, EFS and OS. Spearman's correlation was used to determine the association between CASP8AP2 and miR-210. A Cox's proportional hazards model was utilized to determine an equation for assessment of the risk of bone marrow relapse. All analyses were performed with SPSS (version 16.0; SPSS, Inc., Chicago, IL, USA) for Microsoft Windows. P<0.05 was considered to indicate a statistically significant difference.
Clinical value of CASP8AP2 expression
No statistically significant differences were identified between the included and excluded patients regarding age (P=0.752), sex (P=0.313), immunophenotype (P=0.083), transcription factor ETV6-AML (P=0.143), breakpoint cluster region-ABL人人彩票登入,备用,官方网址 (P=0.725), transcription factor 3-PBX homeobox 1 (P=0.902), myeloid/lymphoid or mixed-lineage leukemia rearrangement (P=0.837) and central nervous system (CNS) involvement (P=0.110).
Median CASP8AP2 expression in the 91 children evaluated was 0.6591 (range, 0.21–2.05). According to ROC curve analysis, the optimal threshold value for CASP8AP2 expression was 0.4760 [area under the curve (AUC), 0.865; 95% confidence interval, 0.725–1.006; P<0.001] with a sensitivity and specificity of 0.850 and 0.818, respectively.
Using this threshold value, the 91 patients were divided into low (n=21) and high (n=70) expression groups. The relapse rate in the low-CASP8AP2 group (9/21; 42.8%) was significantly increased compared with that of the high-CASP8AP2 group (2/70; 2.9%; P<0.001). The low-CASP8AP2 group exhibited decreased RFS (log-rank: P<0.001), EFS (log-rank: P<0.001) and OS (log-rank: P=0.005) compared with the high-CASP8AP2 group (Fig. 1A-C). The results of the present study indicated that CASP8AP2人人彩票登入,备用,官方网址 expression in patients with newly diagnosed ALL is a valuable marker for predicting relapse.
人人彩票登入,备用,官方网址kaplan-meier estimates of rfs, efs and os for children with all with increased and decreased expression of casp8ap2. rfs, relapse-free survival; efs, event-free survival; os, overall survival; all, acute lymphoblastic leukemia; casp8ap2, caspase 8-associated protein 2.
Association between miR-210 and CASP8AP2 expression
Using the threshold value (3.8243) determined in our previous study, the cohort of 91 patients was divided into low (n=41) and high (n=50) expression groups. No association was identified between CASP8AP2 and miR-210 expression in these groups, regardless of continuous or grouped values (P>0.05). Associations between CASP8AP2, miR-210 and clinical characteristics are presented in Table II.
Prognostic relevance of miR-210 and CASP8AP2 expression
miR-210 and CASP8AP2 expression are known prognostic indicators in pediatric ALL which prompted the determination in the present study of the efficacy of combining miR-210 and CASP8AP2 expression to predict relapse. The 91 patients were stratified into four groups according to miR-210 and CASP8AP2 expression. Of the 40 cases in the double high-expression group (miR-210high/CASP8AP2high), none of the patients relapsed, with 3-year EFS and OS values of 93.1±9.9 and 95.7±0.3%, respectively. A total of 11 patients with double low-expression of the two genes (miR-210low/CASP8AP2low) exhibited the poorest outcomes with 3-year RFS, EFS and OS values of 27.3±13.4, 27.3±13.4 and 36.4±14.5%, respectively. No statistically significant difference was observed in prognosis between patients with single low-expression of the two genes (miR-210low/CASP8AP2high, n=30; miR-210high/CASP8AP2low, n=10) with 3-year RFS, EFS and OS values as follows: 91.7±5.6 vs. 88.9±10.5%; P=0.830; 91.7±5.6 vs. 80.0±12.6%; P=0.338; and 91.3±5.9 vs. 80.0±12.6%; P=0.351, respectively. The two subgroups were combined into a single group (n=40) and an intermediate prognosis was determined with 3-year RFS, EFS and OS values of 91.0±5.0, 88.0±5.6 and 83.3±6.9%, respectively (Fig. 2A-C). The results of the present study indicate that combined detection of miR-210 and CASP8AP2 expression may accurately predict ALL relapse.
人人彩票登入,备用,官方网址relapse-free survival, event-free survival and overall survival of children with acute lymphoblastic leukemia stratified by combined assessment of mir-210 and casp8ap2 expression. mir, microrna; casp8ap2, caspase 8-associated protein 2.
Estimation of relapse risk based on clinical features, miR-210 and CASP8AP2 expression
In COX regression analysis, white blood cell counts, MRD at day 33, prednisone response, CNS involvement, BCR-ABL1, TEL-AML, E2A-PBX1, MLL rearrangement, and miR-210 and CASP8AP2 expression were considered covariates. Results of the present study indicated that MRD at day 33, miR-210 and CASP8AP2 expression are all independent prognostic indicators (Table III). On the basis of the final Cox's proportional hazards model for RFS, an equation, composed of the three factors, was devised to estimate the risk of relapse as follows: Risk index =3.393× MRD-3.549× miR-210-2.855× CASP8AP2
Prognostic significance of miR-210 and CASP8AP2 expression levels and other common clinical features analyzed by Cox's proportional hazards model.
In the aforementioned equation, MRD represents MRD at day 33 (1 for MRD <10−4 and 2 for MRD ≥10−4), miR-210 represents miR-210 expression levels (1 for low-miR-210 and 2 for high-miR-210) and CASP8AP2 represents CASP8AP2 expression levels (1 for low-CASP8AP2 and 2 for high-CASP8AP2). The predictive value of this algorithm was tested using an ROC curve. The AUC was 0.965 (P<0.001), which was improved compared with miR-210 and CASP8AP2 expression or clinical risk stratification alone (0.789, 0.865 and 0.841, respectively; Fig. 3), indicating that combined assessment of miR-210 and CASP8AP2 expression may identify patients at increased risk of relapse.
comparison of the predictive value for relapse of mir-210 or casp8ap2 expression, current clinical risk stratification and the novel equation. the area under the curve was 0.789, 0.865, 0.841 and 0.965, respectively. mir, microrna; casp8ap2, caspase 8-associated protein 2.
In the present study, the AUC of the ROC curve of the current clinical risk stratification was 0.841, suggesting that improvement is required. The prognostic value of miR-210 and CASP8AP2 has been demonstrated in previous studies, and CASP8AP2 has been demonstrated as a target of miR-210 in stem cells. The present study evaluated the association between miR-210 and CASP8AP2 in pediatric ALL at the mRNA level and explored the prognostic significance of joint detection. The results of the present study identified that decreased miR-210 or CASP8AP2 expression in newly diagnosed ALL patient BM samples was associated with increased MRD, increased BM relapse rate and poor RFS, EFS and OS. Multivariate analyses indicated that miR-210 and CASP8AP2 expression are independent prognostic factors following adjustment for other risk factors. Combined assessment of miR-210 and CASP8AP2 expression is considered an improved method, compared with a single assessment or the current clinical risk stratification, in identifying patients at increased risk of relapse. Furthermore, an equation was devised for estimating bone marrow relapse risk, based on MRD at day 33 and miR-210 and CASP8AP2 expression. As expected, the equation predicted treatment outcome more precisely than clinical risk stratification alone.
Functioning as a hypoxamir, miR-210 participates in regulation of a number of physiological and pathological processes including cell survival, proliferation, differentiation, apoptosis and development (7–9). A previous study has indicated that leukemic bone marrow is likely in a hypoxic microenvironment at the initial diagnosis, due to the increased proliferation and oxygen consumption of leukemic cells (22). This is consistent with the results of the present study indicating that increased miR-210 expression is prevalent in BM samples at initial diagnosis. In our previous study, the prognostic significance of decreased miR-210 expression in pediatric ALL was demonstrated (10). However, Zhang et al (23) identified that miR-210 expression in a high-risk group (HR) was significantly increased, compared with that in intermediate risk (IR) or standard risk (SR) groups, indicating that increased miR-210 expression is associated with an poorer outcome in pediatric ALL, which is in contrast with the results of the present study. The reasons for the conflicting results may be a substantial difference in the risk classification between the two groups. Zhang et al (23) conducted a study in which the proportion of HR patients was increased compared with that in the present study (36.7%, 18/49 vs. 17.5%, 16/91, respectively). In addition, Zhang et al (23人人彩票登入,备用,官方网址) extracted total miRNAs using TRIzol reagent and detected miRNA levels using an miRNA chip, whereas the present study used mirVana miRNA Isolation kit, TaqMan MicroRNA Assay and RT-qPCR.
Kim et al (15) demonstrated that CASP8AP2 is the target of miR-210 in bone marrow-derived mesenchymal stem cells. However, the present study did not identify an association between these factors; this may be due to the fact that miRNAs regulate gene expression post-transcriptionally which failed to demonstrate a negative association at the mRNA level (24). The complex regulatory network, including miR-210 and its target genes, varies in distinct cell types and further studies are required to explore additional possible associations.
Target genes of miR-210 in pediatric ALL have not been studied and the underlying molecular mechanisms of decreased miR-210 expression associated with a poor prognosis remain unclear. Additional studies are required to elucidate the underlying molecular mechanisms of poor prognosis linked to decreased miR-210 and CASP8AP2人人彩票登入,备用,官方网址 expression in pediatric ALL. Studies of the role that these indicators serve in drug resistance may provide insight into their prognostic value in treating pediatric ALL.
人人彩票登入,备用,官方网址the present study was supported by the priming scientific research foundation for the junior researcher in beijing tongren hospital, capital medical university (grant no. 2014-yjj-zzl-011), the key scientific research training fund of beijing tongren hospital, capital medical university (grant no. 2015-yjj-ggl-009).