Abstract
Gliomas are the most common type of primary brain tumors. MicroRNAs (miRNAs) are small noncoding RNAs that can epigenetically regulate target gene expression. The microRNA 200 family includes miR-200a, 200b, 200c, 141 and 429. Numerous studies have indicated that members of the miR-200 family play an important role in glioma development and metastasis. In this review, we summarize the data from various studies and highlight the effects of miR-200 on glioma metastasis, therapeutic response and prognosis.
Introduction
Gliomas are the most common type of primary brain tumors, accounting for almost 30% of central nervous system tumors and 80% of all malignant brain tumors.Citation1,Citation2 Based on the World Health Organization (WHO) classification, gliomas can be divided into four grades – WHO I, II, III and IV.Citation3 Glioblastoma (GBM; WHO grade IV) is the most common and aggressive primary brain tumor in adults, accounting for ~46% of primary malignant brain tumors.Citation4 Gliomas are characterized by their rapid growth and high degree of infiltration. Despite the difficulty in surgically removing gliomas,Citation5 the current primary treatments include surgical resection, radiotherapy and chemotherapy. Unfortunately, despite the remarkable development in surgery and adjuvant therapy, the median survival rate for patients with gliomas has not considerably improved over the past few decades. Furthermore, clinical outcomes remain poor due to the adverse events that accompany these treatments and the increasing resistance to radiotherapy and chemotherapy.Citation6–Citation8 The underlying mechanisms of glioma pathogenesis are still largely unknown. Thus, improving our understanding of glioma molecular pathogenesis is necessary to develop more efficacious and precise treatment schemes.
MicroRNAs (miRNAs) are small noncoding RNAs that are 17–24 nucleotides in length. miRNAs regulate target gene expression through inhibiting translation or degrading target mRNAs.Citation9 It has been reported that miRNAs regulate cell growth associated with the development and metastasis of cancers.Citation10 Some miRNAs have been specifically implicated in glioma pathogenesis. For example, recent reviews have indicated that circulating miRNAs could be potential glioma biomarkers and reported that miRNAs are associated with drug resistance, which may have direct therapeutic implications.Citation9,Citation11,Citation12
The miRNA-200 family consists of miR-200a, 200b, 200c, 141 and 429. All these miRNAs are derived from two different gene clusters. miR-200a, miR-200b and miR-429 are derived from chromosome 1p33.36, and miR-200c and miR-141 are derived from chromosome 12p13.3 ().Citation13 These miRNAs are highly homologous, with only one nucleotide difference in their seed sequences ().Citation13 Increasing evidence demonstrates that the microRNA-200 family is closely associated with glioma initiation, progression and metastasis.Citation14,Citation15 The goal of this review is to update the research field on the multiple roles of the miR-200 family in gliomas.
Table 1 The miR-200 family and their seed sequences
miR-200 expression in gliomas
Studies that have identified miRNAs that are aberrantly expressed in gliomas have provided important information regarding the roles of miRNAs in tumor biology. Studies that focused on the miRNA-200 family have offered new insight into glioma development and metastasis. Interestingly, while these studies have utilized different detection platforms and samples to identify differentially expressed miRNAs (), the majority found that miR-200a, 200b, 200c, 141 and 429 are downregulated in glioma tissues.Citation15–Citation22 More interestingly, miR-200a was consistently lower in grade IV (GBMs) gliomas compared to low-grade II and III (LGs) gliomas, suggesting that miR-200a is responsible for glioma histological grading.Citation17 However, some members of the miR-200 family were upregulated in gliomas. For example, one study showed that miR-429 was upregulated in glioma compared to non-neoplastic brain tissues.Citation23 Another study demonstrated that miR-141-3p was upregulated in high-grade gliomas (grades III and IV) compared to that of non-cancerous brain tissues or even LG gliomas (grades I and II).Citation24 Intriguingly, although one study showed that miR-200b was upregulated in glioma compared to normal brain tissues, inhibiting miR-200b expression enhanced pathological grading of glioma; therefore, miR-200b was still thought to be a tumor suppressor gene.Citation25 Of note, the reduced expression of miRNAs in the miR-200 family in gliomas was associated with epigenetic regulation. One study reported that DNA methylation and histone modifications repressed miR-200a, 200b and 429 expression, which promoted glioblastoma progression.Citation26
Table 2 Literature summary of studies focused on miRNA 200 family expression in gliomas
The variation in miRNA expression data from these studies might reflect a context-dependent expression pattern that relies on histological type or glioma grade. Indeed, it was reported that dysregulation of miRNAs might be associated with tumor stage, grade and progression status.Citation27 Therefore, the underlying mechanism of miRNA control of glioma warrants additional research.
miR-200 and metastasis of gliomas
Metastasis involves multiple steps that promote tumor cells to migrate from the primary tumor site and colonize in distant organs or tissues.Citation28 Interestingly, extracranial metastasis is rare in malignant gliomas,Citation29 which has been reported in only ~0.5% of patients.Citation30 The low incidence of extracranial metastasis could be attributed to some intrinsic biological obstacles, such as lack of the lymphatic system, which is crucial for systemic dissemination, or the presence of dense dura around cerebral veins, which inhibits tumor cell migration.Citation29
One study indicated that miR-200a inhibits glioma cell growth, migration and invasion by targeting single-minded homolog 2-short form (SIM2-s).Citation16 Similarly, many studies have demonstrated that miR-200b inhibits glioma cell proliferation and invasion. More specifically, miR-200b can target different genes, including cAMP responsive element-binding protein 1 (CREB1), zinc finger E-box binding homeobox 2 (ZEB2), prominin 1 (PROM1), extracellular signal-regulated kinase 5 (ERK5), CD133Citation10,Citation19,Citation31–Citation33 and lactate dehydrogenase A (LDHA), which is associated with glioma cell proliferation and invasion. Therefore, targeting LDHA by miR-200b is regarded as a promising therapeutic strategy in glioma.Citation34 Moreover, miR-200b was reported to be involved in blood-tumor barrier (BTB) permeability. For example, miR-200b overexpression was associated with reduced expression of RhoA and ROCKII and subsequently contributed to a decrease in BTB permeability.Citation35 Therefore, downregulation of miR-200b may initiate a signaling cascade that increases BTB permeability and facilitates glioma cell invasion.
On the other hand, several studies have reported that miR-200c plays an important role in regulating glioma cell growth and invasion. For example, one study showed that miR-200c overexpression impaired glioma cell proliferation and invasion by targeting moesin.Citation15 Another study found that miR-200c prevented the invasion and migration of glioblastoma by activating EGFR pathways that reversed the epithelial–mesenchymal transition in glioblastoma.Citation36 Intriguingly, due to the homology in seed sequences, miR-200c and miR-141 share the same target, ZEB1, which is known to inhibit glioma cell growth and migration.Citation37 However, recent studies obtained inconsistent results. For example, one study reported that miR-141, acting as a tumor suppressor, inhibited glioma cell proliferation, migration and invasion by targeting TGF-β2,Citation20 while another study indicated that miR-141-3p promoted glioblastoma progression and temozolomide resistance by targeting p53.Citation24 Similarly, another report suggested that miR-429 was a potential tumor-suppressive miRNA and inhibited glioblastoma proliferation by targeting SOX2,Citation38 while a contrasting study reported that miR-429 was upregulated in glioma tissues, suggesting that miR-429 contributes to glioma progression.Citation23 The exact reason for the discrepancies in these studies is still unclear, but it suggests that members of miR-200 family might play context-dependent roles. Hence, more studies are needed to clarify the functional roles of miR-200 family in gliomas.
Long non-coding RNAs (lncRNAs) might also interact with microRNAs in glioma.Citation39 One study reported that miR-200a was negatively regulated by the lncRNA ATB, which is involved in glioma malignancy.Citation40 LncRNA TCF7 can also bind to miR-200c and inhibit miR-200c expression, which can promote glioma cell proliferation, self-renewal and migration.Citation41 Conversely, increasing data indicate that miRNAs have the capacity to regulate lncRNAs. For example, lncRNA HOTAIR was found to be a downstream target of miR-141, which is involved in glioma cell proliferation, migration and invasion.Citation42 One study also demonstrated that miR-429 directly targeted the lncRNA XIST, which promoted glioma tumorigenicity.Citation43 Therefore, a better understanding of the relationship between lncRNA and miRNA can help to develop potentially new therapeutic strategies for gliomas.
Effect of miR-200 on chemotherapeutic and radiotherapeutic responses and glioma prognosis
Given the difficulty in resecting whole glioma tumors, relapse frequently occurs following surgery. Therefore, treatment schemes for gliomas often include chemotherapy and/or radiotherapy after surgery. The first-line glioma drugs are temozolomide and bevacizumab. However, due to resistance to chemotherapeutic drugs and intolerance to radiotherapy, patients with glioma have poor prognoses. Increasing data indicate that the miR-200 family might contribute to some of the drug resistance in glioma treatment.
High levels of the DNA repair enzyme, O6-methylguanine methyltransferase (MGMT), are thought to be the main mechanism by which glioblastoma develops resistance to temozolomide.Citation44,Citation45 Interestingly, one study found that overex-pression of miR-200a inhibits MGMT activity and promotes temozolomide sensitivity; however, overexpression of MGMT also inhibited miR-200a expression.Citation17 The exact mechanism by which MGMT affects miR-200a remains unclear, but some reports speculate that apoptosis is involved.Citation17,Citation46 In addition, although several studies have reported that miR-141 functions as a tumor suppressor that represses glioma cell proliferation and invasion,Citation20 one study indicated that miR-141-3p promoted temozolomide resistance by inhibiting p53 expression in an orthotopic mouse model of human glioma, and that inhibition of miRNA-141-3p reduced glioma cell growth and prolonged survival rates in glioma-bearing mice.Citation24 Radiotherapy is an additional glioma treatment strategy. One study demonstrated that miR-200c increases glioma cell radiosensitivity by activating EGFR-associated signaling.Citation36
Apart from chemotherapy and radiotherapy, immunotherapy has recently emerged as an alternative glioma treatment.Citation47–Citation49 However, some glioma patients benefit from immunotherapy, but others do not.Citation50 For those who do not respond to immunotherapy alone, combinatorial treatment with miRNAs may by prove beneficial. Evidence suggested that the miR-200 family could modulate the tumor immune response. For example, myeloid-derived suppressor cells (MDSCs) can produce reactive oxygen species and suppress tumor immune response and modulate the tumor environment.Citation51 Furthermore, it was reported that miR-200c plays a significant role in the regulation of tumor-associated MDSCs.Citation52 However, the exact relationship between the miR-200 family and glioma immunotherapy is still largely unknown. Therefore, future detailed studies are needed to improve the efficacy of immunotherapy.
Overall, the current data suggest that the miR-200 family could influence clinical outcomes and glioma prognosis through multiple mechanisms. Indeed, it has been clearly demonstrated that higher miR-200b expression correlates with better outcomes and a significantly higher 5-year survival rate in glioma patients and that reduced miR-200b expression might be associated with poor prognosis.Citation18,Citation22,Citation25,Citation53 In contrast, one study reported that high miR-429 expression correlates with poor prognosis in glioma patients,Citation23 while other studies indicated that miR-429 functions as either an oncogene or a tumor suppressor.Citation54,Citation55 The underlying mechanism for this discrepancy is unknown; therefore, more research is needed to clarify the roles of miR-429 in gliomas.
Interactions among different members of the miR-200 family in gliomas
It is well known that, similar to other miRNA families, each miRNA in the miR-200 family can regulate the expression of several mRNAs, and each mRNA can also be regulated by several miRNAs, forming a complex regulatory network (). Importantly, in gliomas, the target genes dysregulated by miR-200 are associated with many conserved signaling pathways involved in cell processes such as cell proliferation, apoptosis, invasion and drug resistance.Citation20,Citation24,Citation36,Citation37 Because miR-200 can target multiple downstream genes in glioma tissues, miR-200 might play both oncogenic and antioncogenic roles. For instance, TGF-β2 regulates many cellular processes including proliferation, differentiation, adhesion and migration.Citation56 TGF-β2 expression is upregulated in glioma,Citation57 and TGF-β2 has been found to play an important role in glioma initiation and development.Citation58 In this context, miR-141 acts as a tumor suppressor by targeting TGF-β2.Citation20 However, the tumor suppressor p53 is also a direct target of miR-141.Citation24 Therefore, miR-141 may also function as an oncogenic factor through negatively targeting p53 to promote tumor growth and inhibit cell apoptosis. Future research should focus on the specific biological context of miR-200 in gliomas.
Table 3 Target genes of the miR-200 family in glioma tissues
Conclusion
Numerous studies have shown that members of the miR-200 family, as epigenetic regulatory molecules, can regulate physiological and pathological processes through targeting multiple downstream genes, consequently affecting proliferation and invasion of glioma cells as well as the therapeutic response and prognosis of gliomas. Intriguingly, the contradictory roles of microRNAs, especially miR-141 and miR-429, may differentially impact glioma development and progression. In the future, more detailed studies are needed to delineate the underlying mechanisms by which miRNAs in the miR-200 family affect glioma cells to develop more efficient treatments.
Disclosure
The authors report no conflicts of interest in this work.
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