Phenotype versus genotype correlation in oligodendrogliomas and low-grade diffuse astrocytomas

Oligodendrogliomas typically show loss of heterozygosity (LOH) on chromosomes 1p and 19q, which correlates with their response to chemotherapy, whereas low-grade astrocytomas are characterized by frequent TP53 mutations and lack of sensitivity to alkylating therapeutic agents. Unequivocal histological distinction of low-grade diffuse astrocytomas from oligodendrogliomas and oligoastrocytomas is often difficult. To elucidate the relationships between morphological phenotype and genetic profile, we screened 19 oligodendrogliomas (WHO grade II) and 23 low-grade diffuse astrocytomas (WHO grade II) for TP53 mutations and LOH on 1p and 19q. In oligodendrogliomas, LOH on chromosomes 1p and/or 19q was found in 15 cases (79%) and TP53 mutation was detected in 4 cases (21%). The presence of a typical perinuclear halo in >50% of tumour cells and a chicken-wire vascular pattern were significantly associated with LOH on 1p or 19q (93% of cases). This suggests that oligodendrogliomas with classical histologic features are likely to have a better prognosis. In low-grade diffuse astrocytomas, LOH on chromosomes 1p and/or 19q was found in three cases (13%) and TP53 mutation was detected in ten cases (43%). Histologically, five low-grade astrocytomas (22%) contained small areas with oligodendroglial differentiation, but this did not correlate with the presence of TP53 mutations or LOH on 1p and 19q. In both oligodendrogliomas and astrocytomas, LOH on chromosomes 1p or 19q and TP53 mutation were mutually exclusive. Methylation of the promoter of the gene for O (6)-methylguanine-DNA methyltransferase (MGMT), a DNA repair protein, which confers resistance to chemotherapy with alkylating agents, was detected in 47% of oligodendrogliomas and 48% of low-grade diffuse astrocytomas. There was no correlation with LOH on chromosomes 1p/19q, suggesting that MGMT may not be a prognostic marker for oligodendrogliomas.     

Methylation Status of the O6-Methylguanine-Deoxyribonucleic Acid Methyltransferase Gene Promoter in World Health Organization Grade III Gliomas

Objective

We analyzed the methylation status of the O6-methylguanine-DNA methyltransferase (MGMT) gene promoter in World Health Organization (WHO) grade III gliomas in association with other molecular markers to evaluate their prevalence.

Methods

The samples of a total of 36 newly WHO grade III glioma patients including 19 anaplastic oligodendrogliomas (AO), 7 anaplastic oligoastrocytomas (AOA), and 10 anaplastic astrocytomas (AA) were analyzed. The methylation status of the MGMT gene promoter was confirmed by methylation-specific polymerase chain reaction. The 1p/19q chromosomal deletion status and EGFR amplification were assessed by Fluorescence In-Situ Hybridization. MGMT, EGFR, EGFRvIII, and p53 expression were analyzed by immunohistochemical staining.

Results

The MGMT gene promoter was methylated in 32 (88.9%) and unmethylated in 4 (11.2%). Among them, all of the AO and AOA had methylated MGMT gene promoter without exception. Significant associations between MGMT gene promoter hypermethylation and 1p/19q deletion was observed (p = 0.003). Other molecular markers failed to show significant associations between MGMT gene promoter statuses.

Conclusion

There was extensive epigenetic silencing of MGMT gene in high grade gliomas with oligodendroglial component. Together with frequent 1p/19q co-deletion in oligodendroglial tumors, this may add plausible explanations supporting the relative favorable prognosis in oligodendroglial tumors compared with pure astrocytic tumors.     

Gliomas of the optic nerve: histological, immunohistochemical (MIB-1 and p53), and MRI analysis

Gliomas of the optic nerve, although typically of pilocytic (WHO grade I) histology, can present within the spectrum of astrocytic neoplasia including glioblastoma (WHO grade IV). In certain cases, histologic features alone make the distinction between pilocytic and diffuse astrocytomas difficult. We reviewed 22 cases of optic nerve gliomas, 19 of which were pilocytic astrocytomas (PA), and 3 of which were diffuse, non-pilocytic astrocytomas. The cases were evaluated for their clinical course, radiographic appearance, histologic grade, and proliferation indices as detected by MIB-1 (Ki-67) and p53 antibodies. Of the 19 PA, 14 showed no tumor growth by magnetic resonance imaging, and had Ki-67 and p53 labeling indices (LI) of < 1%. The other 5 PA exhibited aggressive behavior manifest by marked diffuse infiltrative tumor growth causing death in 2 patients, 1 of whom was diagnosed with neurofibromatosis type 1 (immunoperoxidase and radiographs not available), and marked local growth with an average time to growth of 39.3 months, a Ki-67 LI of 2–3%, and a p53 LI of < 1% in three others. Three of the five aggressive PA histologically demonstrated a finely reticulated pattern, a pattern that appears as an exaggeration or expansion of the normal neuroglia of the optic nerve, and may simulate a diffuse low-grade astrocytoma. Two demonstrated the coarsely reticulated pattern, with the biphasic and microcystic pattern typical of PA. Three diffuse astrocytomas (2 anaplastic astrocytomas and 1 glioblastoma) originated clinically and radiographically from the optic nerve, and revealed a Ki-67 LI of 2–12%, a p53 LI of 2–8%, and an average time to growth of 8 months. We conclude that the majority of PA of the optic nerve are non-aggressive, stabilize radiographically, and have Ki-67 and p53 LI < 1%. However, a subpopulation of PA has a propensity for aggressive behavior, and are identified by a Ki-67 LI of 2–3% and a p53 LI of < 1%. Diffuse astrocytomas have both Ki-67 and p53 LI > 2%. Thus, in cases of aggressive optic nerve tumors in which the histologic review of biopsy material cannot confidently confirm the diagnosis of pilocytic or diffuse fibrillary glioma, a p53 LI of > 1% appears to favor the diagnosis of diffuse astrocytoma. Received: 18 May 1999 / Revised: 10 August 1999 / Accepted: 18 August 1999     

胶质瘤1p/19q联合缺失与临床病理因素的相关性分析

目的 本研究旨在筛选与胶质瘤组织1p/19q联合缺失相关的临床病理因素.方法 收集胶质瘤标本56例,采用荧光原位杂交(FISH)方法检测肿瘤组织标本中1p和19q的状态,并用免疫组化对9种肿瘤相关蛋白进行半定量分析,应用统计学方法筛选与1p/19q联合缺失相关的临床病理因素.结果 单因素分析证实病理类型、p53和O6-甲基鸟嘌呤-DNA甲基转移酶(MGMT)表达水平与1p/19q联合缺失相关,Logistic回归进一步证实病理类型和MGMT表达水平与1p/19q联合缺失相关,P值分别为0.001和0.004.结论 在胶质瘤中,通过病理类型和MGMT表达水平可以准确预测部分胶质瘤的1p/19q缺失状态,1p/19q联合缺失有可能通过p53和MGMT的低表达,增强烷化剂化疗疗效和延长存活期.

Abstract：

Objective This study aimed to select clinical and pathological aspects correlated with 1p/19q co- deletion in gliomas.Methods Samples of 56 glioma patients were collected.The status of chromosome 1p and 19q was detected by Fluorescence in Situ Hybridization (FISH) and the expression levels of nine tumor- associated proteins were analyzed semi- quantitatively by immunohistochemistry.Then the aspects correlated with 1p/19q co- deletion were chosen by univariate and logistic regression methods.Methods Pathology,expression levels of p53 and MGMT were the factors correlated with 1p/19q co-deletion by univariate analysis,while pathology and expression level of MGMT were further confirmed by logistic regression.Conclusion 1p/19q co- deletion could be predicted by pathology and expression level of MGMT exactly in part of gliomas.It is likely that 1p/19q co-deletion results in hypo-expression of p53 and MGMT in gliomas,which in turn lead to improved alkylator sensitivity and prolonged survival.     

Characterisation of molecular alterations in microdissected archival gliomas

Classification of gliomas according to their molecular characteristics may be important in future histopathological diagnosis. However, gliomas frequently display heterogeneity at the histological, biological and molecular level. In this study of archival diagnostic gliomas, precision microdissection was used to enrich samples in the most malignant cells or to investigate intratumoural histological heterogeneity. Analysis of tumour samples microdissected from the most aggressive regions, representative of the histopathological diagnosis, revealed PTEN mutations in 4/14 anaplastic astrocytomas, 4/13 glioblastomas and 1 gliosarcoma, but not in 19 low-grade gliomas. Using a novel PCR procedure and direct sequence analysis of the entire coding sequence, TP53 mutations were detected in 1/3 pilocytic astrocytomas, 3/13 astrocytomas, 4/14 anaplastic astrocytomas, 5/13 glioblastomas and 1 gliosarcoma. All but one of the tumours with TP53 mutation showed p53 immunopositivity, but 5 low-grade and 10 high-grade gliomas had p53 protein nuclear accumulation in the absence of detectable mutation. p53 status was unrelated to p21 expression. Neither PTEN nor TP53 mutations influenced the proliferative index or microvessel density of high-grade astrocytomas. Unusual findings include: TP53 mutation in a juvenile pilocytic astrocytoma; TP53 and PTEN mutations in a de novo glioblastoma, a gliosarcoma with identical mutations in gliomatous and sarcomatous components, and an infratentorial anaplastic astrocytoma with an earlier supratentorial grade II astrocytoma bearing the same TP53 mutation but not the PTEN mutation or loss of heterozygosity (LOH) of 10q23. Similarly, the transition to high-grade histology was associated with acquisition of PTEN mutations and 10q23.3 LOH in two de novo high-grade tumours with regions of low-grade histology.     

Correlations between molecular profile and tumor location in Chinese patients with oligodendroglial tumors

OBJECTIVE: To investigate possible correlations between molecular alterations and tumor location in Chinese patients with oligodendroglial tumors. METHODS: A series of 105 gliomas, including 42 oligoastrocytomas, and two control groups of 28 oligodendrogliomas and 35 astrocytomas, were retrospectively reviewed. In each case, the radiologic picture and loss of heterozygosity (LOH) on chromosome 1p and 19q detected by denaturing high-performance liquid chromatography (DHPLC) were analyzed. Correlations between molecular profile and tumor location were made by chi-square and Fisher's exact tests. RESULTS: Oligodendroglial tumors located in the nontemporal lobes were significantly more likely to have combination of LOH 1p and LOH 19q than tumors arising in the insula, temporal lobe, and temporal with another lobe (p=0.001). Subgroup analysis confirmed this finding in oligodendrogliomas (p=0.006), but the difference did not reach significance in the oligoastrocytoma group, although the trend was similar (p=0.067). In contrast to the oligodendroglial tumors, we detected no association between molecular alterations and location for diffuse astrocytomas. CONCLUSION: We conclude that molecular subsets of oligodendroglial tumors may arise preferentially in certain lobes of the brain, with tumors having LOH 1p and LOH 19q occurring most frequently in the nontemporal lobes. These findings suggest that molecular subsets of oligodendroglial tumors may arise from site-specific precursor cells, which has provided some information for the current management of these neoplasms in China.     

Molecular analysis of chromosome 1, 10 and 19 abnormalities in human oligodendroglial tumors: relationship between frequency of LOH grade, age and gender

BACKGROUND: Loss of heterozygosity (LOH) on 1p and 19q is observed in most oligodendroglial tumors. LOH on 10q appears to be less common in these tumors as compared to other gliomas. PATIENTS AND METHODS: We reviewed 14 patients with oligodendroglial tumors (10 low-grade and 4 anaplastic oligodendroglioma) to evaluate the frequency of LOH on 1p, 10q and 19q and correlate it with tumor grade and patients' age and gender; 5 loci on 1p and 5 on 19q as well as 4 on 10q were analyzed for LOH using PCR techniques. RESULTS: LOH on 1p together with 19q was detected in 6 tumors, 1 tumor showed deletion of 19q accompanied with deletion on 10q. Deletion on 1p was associated with deletion of 19q (p < 0.005) and mutual associations among deletions at loci on 19q (p < 0.05) were found. Patients with LOH on 1p were younger on average than patients with retained heterozygosity (p = 0.05). Grade II oligodendrogliomas predominated among younger patients (p < 0.01) while grade III oligodendrogliomas predominated among women (p < 0.005). No association between LOH on 1p nor 19q and tumor grade or patients' gender was found. CONCLUSION: Our study provides several clinically interesting findings and further supports the hypothesis of chromosome 1p and 19q involvement in the oligodendroglial cancerogenesis.     

A comparative immunohistochemistry of O6‐methylguanine–DNA methyltransferase and p53 in diffusely infiltrating astrocytomas

The DNA repair protein O⁶‐methylguanine–DNA methyltransferase (MGMT) removes mutagenic adducts from the O⁶ position of guanine, thereby protecting the genome against guanine : cytosine to adenine : thymine transition and, meanwhile, conferring tumor resistance to many anticancer alkylating agents commonly used in the treatment of malignant gliomas. Studies on the involvement of p53 protein in expression of the MGMT gene have provided conflicting results regarding the relation between p53 protein and MGMT gene expression. To examine the potential immunostaining pattern of MGMT expression and to evaluate the possible relationship between p53 and MGMT regulation, we assessed MGMT and p53 accumulation on 35 cases of diffusely infiltrating astrocytomas. With a few cases showing cytoplasmic staining, MGMT accumulation was mainly nuclear. The percentage of labeled tumor cells was lower in high‐grade astrocytomas than in low‐grade astrocytomas (P < 0.05). Additionally, p53‐immunopositive tumor cells were usually immunonegative to MGMT. Thus, it is suggested that MGMT expression is reduced during malignant transformation of diffusely infiltrating astrocytomas, and that mutant p53 protein might be associated with down regulation of the MGMT expression.     

Genetically distinct astrocytic and oligodendroglial components in oligoastrocytomas

Oligoastrocytomas are glial tumours consisting of a mixture of neoplastic astrocytic and oligodendroglial cells. Genetic alterations of oligoastrocytomas include loss of heterozygosity of chromosomes 1p and/or 19q (LOH 1p/19q), typically occurring in oligodendrogliomas, and mutations of TP53, frequently occurring in astrocytomas. To investigate whether these neoplastic cell types in oligoastrocytomas have different genetic profiles, we examined the two different components of oligoastrocytomas in comparison with the histological diagnosis of the specific tumour area for LOH 1p/19q and TP53 mutations by using microdissection technique. We found a variety of lost markers for 1p and 19q, and the presence of two different TP53 mutations in the tumour samples. In the majority of cases (9/11), the oligodendroglial and astrocytic components of an individual oligoastrocytoma displayed the same genotype. We present two cases of biphasic oligoastrocytomas with aberrant findings, suggesting the coexistence of genetically and morphologically distinct tumour cell clones in these tumours. In one case, the oligodendroglial part of the tumour showed LOH19q, whereas the astrocytic part showed TP53 mutation (codon 273). In another case, we found LOH 1p/19q in the oligodendroglial component, but two retained areas on chromosome 1p in the astrocytic component of the tumour. No evidence was found for the coexistence of tumour cells with the two genotypical changes within the same morphological region of one individual tumour. The two cases of biphasic oligoastrocytomas in our sample that display a different genotype in the astrocytic and oligodendroglial part of the tumour show that different components of an oligoastrocytoma may be derived from different cell clones during neoplastic transformation.     

Expression of retinoblastoma gene product and p21 (WAF1/Cip 1) protein in gliomas: correlations with proliferation markers, p53 expression and survival

Using immunohistochemistry we evaluated the expression of two negative regulators of the cell cycle, the retinoblastoma gene product (pRb) and the WAF1/Cip1 gene product (p21), in consecutive paraffin sections from 54 gliomas (49 astrocytomas and 5 oligodendrogliomas) and related it to clinicopathological parameters, proliferative fraction, p53 expression and survival. Survival analysis was restricted to the group of diffuse astrocytomas (48 patients). pRb expression did not correlate with histological type, grade or p53 expression, while a moderately strong correlation existed between pRb expression and the percentages of proliferating cell nuclear antigen (PCNA) and MIB-1-positive cells. In 30% of cases we observed diminished pRb expression (i.e., a low pRb/Ki-67 ratio), irrespective of grade or histological type. p21 protein was elevated in 50% of cases, especially within the higher grades. The percentage of p21-positive cells was not related to histological type or grade but correlated loosely with PCNA and pRb expression. A p53-negative/p21-negative phenotype was characteristic of oligodendrogliomas and low-grade astrocytomas, whereas the p53-positive/p21-positive, p53-positive/p21-negative and p53-negative/p21-positive phenotypes were almost equally distributed among high-grade tumors. In survival analysis (either univariate or multivariate) diminished pRb expression was not a statistically significant prognostic indicator. In contrast, p21 expression emerged as an important indicator of shortened disease-free survival, in both univariate and multivariate analyses. Moreover, the double-positive p53/p21 phenotype tended to be associated with a shorter overall survival. Our results suggest that Rb gene deregulation does not significantly affect prognosis but p21 expression may play an important role in disease-free survival of astrocytoma patients. Received: 14 August 1997 / Revised: 6 November 1997 / Accepted: 28 November 1997     

少突胶质细胞肿瘤的分子遗传学改变与其部位的相关性研究

目的 研究少突胶质细胞肿瘤分子遗传学改变和肿瘤部位的相关性.方法 回顾性地研究了105例胶质瘤.根据影像学资料记录每例肿瘤的部位,运用PCR-变性高效液相色谱技术检测肿瘤染色体1p和19q杂合性缺失的情况,用χ2检验和Fisher确切概率法评估肿瘤部位和分子遗传学特征之间的相关性.结果 位于非颞叶的少突胶质细胞肿瘤与位于颞叶的肿瘤相比,更倾向于具有1p和19q联合杂合性缺失,而星形细胞瘤的分子遗传学特征与其部位之间没有相关性.结论 不同分子亚型的少突胶质细胞肿瘤可能发生于不同的脑叶,即具有1p和19q联合杂合性缺失的肿瘤通常发生于非颞叶.     

Apoptosis in cerebral astrocytic tumours and its relationship to expression of the bcl-2 and p53 proteins

Apoptosis is an important determinant of tumour growth which can be regulated by the bcl-2 and p53 genes. This study examines the relationship between apoptosis, growth fraction (Ki-67 immunolabelling index), and accumulation of the bcl-2 and p53 proteins in a spectrum of cerebral astrocytic tumours (n=81). including fibrillary astrocytomas (n=16), anaplastic astrocytomas (n=19), and glioblastomas (n=46). Median apoptosis indices (AIs) increased across this spectrum of tumours, and a significant (P<0.0001) correlation was demonstrated between A1 and Ki-67 labelling index (LI). Immunolabelling with the bcl-2 antibody was found in 44% of fibrillary astrocytomas, 42% of anaplastic astrocytomas, and 28% of glioblastomas. It was also found in the vascular endothelial proliferation typically seen in glioblastomas, and in the giant, multinucleated cells of some glioblastomas. No clear relationship between AI and bcl- 2 accumulation was evident. Immunolabelling with the p53 antibody was found in 56% of fibrillary astrocytomas, 79% of anaplastic astrocytomas, and 50% of glioblastomas. No clear relationship between AI and patterns of p53 immunolabelling was evident. Equal proportions of p53-positive tumours were bcl- 2 positive and bcl- 2 negative, but a small proportion of p53-negative tumours was bcl- 2 positive. The correlation between A1 and Ki-67 LI is in line with findings in other malignant tumours. We suggest that the regulation of apoptosis in astrocytic tumours is too complex for a clear association between A1 and bcl- 2 and p53 protein expression to be demonstrated.     

p53 protein alterations in adult astrocytic tumors and oligodendrogliomas

BACKGROUND: p53 is a tumor suppressor gene implicated in the genesis of a variety of malignancies including brain tumors. Overexpression of the p53 protein is often used as a surrogate indicator of alterations in the p53 gene. AIMS: In this study, data is presented on p53 protein expression in adult cases (>15 years of age) of astrocytic (n=152) and oligodendroglial (n=28) tumors of all grades. Of the astrocytic tumors, 86% were supratentorial in location while remaining 14% were located infratentorially - 8 in the the cerebellum and 13 in the brainstem. All the oligodendrogliomas were supratentorial. MATERIALS AND METHODS: p53 protein expression was evaluated on formalin-fixed paraffin-embedded sections using streptavidin biotin immunoperoxidase technique after high temperature antigen retrieval. RESULTS: Overall 52% of supratentorial astrocytic tumors showed p53 immunopositivity with no correlation to the histological grade. Thus, 58.8% of diffuse astrocytomas (WHO Grade II), 53.8% of anaplastic astrocytomas (WHO Grade III) and 50% of glioblastomas (WHO Grade IV) were p53 protein positive. In contrast, all the infratentorial tumors were p53 negative except for one brainstem glioblastoma. Similarly, pilocytic astrocytomas were uniformly p53 negative irrespective of the location. Among oligodendroglial tumors, the overall frequency of p53 immunopositivity was lower (only 28%), though a trend of positive correlation with the tumor grade was noted - 25% in Grade II and 31.5% in grade III (anaplastic oligodendroglioma). Interestingly, p53 labeling index (p53 LI) did not correlate with the histopathological grade in both astrocytic and oligodendroglial tumors. CONCLUSIONS: Thus, this study gives an insight into the genetic and hence biological heterogeneity of gliomas, not only between astrocytic tumors vs. oligodendrogliomas but also within astrocytic tumors with regard to their grade and location. With p53 gene therapy trials in progress, this will possibly have future therapeutic implications.     

Histomolecular classification of adult diffuse gliomas: the diagnostic value of immunohistochemical markers

Adult gliomas are most often infiltrative. The World Health Organization (WHO) has classed them into three major groups according to the presomptive cell of origin: astrocytoma, oligodendroglioma and mixed oligoastrocytoma. Depending on the presence or absence of a small number of signs of anaplasia (mitosis, nuclear atypia, cell density, microvascular proliferation and necrosis) the WHO distinguishes grade II (LGG), III (anaplastic), and IV (glioblastomas, GBM). Mutation in the isocitrate deshydrogenase I and II (IDH1 and 2) genes distinguishes grade II, III and secondary GBM from primary GBM. Moreover two additional genetic alterations are recorded in grade II and III gliomas: TP53 mutations that characterize astrocytomas and 1p19q codeletion (as the result of t(1;19)(q10;p10) translocation) recorded in oligodendrogliomas. Mixed gliomas, the most non-reproducible category, share with astrocytomas and oligodendrogliomas the same genetic alterations. Interestingly TP53 mutation (p53+) and 1p19q codeletion (1p19q+) are mutually exclusive and involve IDH mutated (IDH+) glial precursor cells. According to IDH, TP53, and 1p19q status, four major subtypes of LGG are recorded: IDH+/p53−/1p19q−, IDH+/p53+/1p19q−, IDH+/p53−/1p19q+ and triple negative, this last subgroup having the worst prognosis. Interestingly, p53 expression and internexin alpha (INA) expression can replace to some extent TP53 mutation and 1p19 codeletion, respectively. Moreover the antibody directed against the IDH1R132H isoform is highly specific. Because this mutation is the most frequent it is sufficient to assess IDH status in more than 80% of grade II and III gliomas. Taken together these three immunohistochemical markers are contribute greatly to the classification of gliomas and should be tested routinely as diagnostic markers. Finally, although GBM are genetically heterogeneous, the vast majority display EGFR amplification, often associated with EGFR expression, which can be helpful for diagnosis in certain cases.     

胶质瘤中P53、EGFR、Ki-67及MGMT 的表达及临床意义

目的 探讨不同级别胶质瘤中P53、EGFR、Ki-67 及MGMT 的表达及临床意义.方法 应用免疫组织化学方法检测152 例胶质瘤中P53、EGFR、Ki-67 及MGMT 表达,统计分析上述蛋白的表达差异.结果 P53 在Ⅱ、Ⅲ、Ⅳ级胶质瘤中阳性率分别为71.4%,73.1%和60.0%.95 例EGFR 阳性,其阳性表达率与染色强度均与病理级别呈正相关(P ＜0.01).Ki-67 均为阳性表达,Ki-67LI 在高级别胶质瘤中明显高于其在低级别胶质瘤中的表达水平(P ＜0.01).MGMT 阳性84 例,阴性68 例,在低级别胶质瘤和高级别胶质瘤之间的MGMT 表达无明显差异(P ＞0.05).结论 EGFR 和Ki-67 表达与肿瘤病理级别呈正相关,与胶质瘤恶性进展及预后差密切相关.P53 和MGMT 与肿瘤病理级别无明显相关性.检测有助于评估胶质瘤侵袭能力、增殖性,预测胶质瘤对放、化疗敏感性及判断分子靶向药物治疗是否有效.     

Clinical and molecular genetic factors affecting postoperative seizure control of 183 Chinese adult patients with low-grade gliomas

Background and purpose: Seizures are a common symptom of patients with primary brain tumors, particularly low‐grade gliomas (LGGs). Poor seizure control after surgery has a great adverse impact on quality of life in these patients. The present study aimed to identify clinical and molecular genetic factors that influence postoperative seizure control. Methods: A series of 183 LGGs were analyzed by denaturing high‐performance liquid chromatography (DHPLC) for 1p and 19q status and by immunohistochemical staining for expression of several molecular markers (P53, Ki‐67, MMP‐9 and MGMT), with particular emphasis on correlations with postoperative seizure control. Univariate and multivariate logistic regression analyses were used for statistic analysis. Results: Of the 183 patients, 134 (73.2%) patients presented with seizures. Most of oligodendrogliomas and oligoastrocytomas had LOH 1p and LOH 19q, which were rarely seen in combination in astrocytomas (P < 0.001). Oligodendroglial tumors were more likely to locate in frontal lobe (P = 0.011) and present calcification on MRI (P = 0.024). Temporal location (P = 0.014), and high expression of mutated P53 (P = 0.011) were associated with astrocytomas. Patients achieved much better seizure control after gross‐total resection (P < 0.001) than after subtotal resection. Patients without LOH 19q were more likely to have poor seizure control (P = 0.004) than those with this alteration. Ki‐67 was an independent molecular marker predicting poor seizure control (P = 0.016) if over expressed. Conclusions: Gross total resection of the tumor, LOH 19q and low Ki‐67 expression were associated with favorable seizure control after surgery for the patients with LGGs. The possible involvement of other factors should be investigated further.     

Population-based studies on incidence, survival rates, and genetic alterations in astrocytic and oligodendroglial gliomas

Published data on prognostic and predictive factors in patients with gliomas are largely based on clinical trials and hospital-based studies. This review summarizes data on incidence rates, survival, and genetic alterations from population-based studies of astrocytic and oligodendrogliomas that were carried out in the Canton of Zurich, Switzerland (approximately 1.16 million inhabitants). A total of 987 cases were diagnosed between 1980 and 1994 and patients were followed up at least until 1999. While survival rates for pilocytic astrocytomas were excellent (96% at 10 years), the prognosis of diffusely infiltrating gliomas was poorer, with median survival times (MST) of 5.6 years for low-grade astrocytoma WHO grade II, 1.6 years for anaplastic astrocytoma grade III, and 0.4 years for glioblastoma. For oligodendrogliomas the MSTwas 11.6 years for grade II and 3.5 years for grade III. TP53 mutations were most frequent in gemistocytic astrocytomas (88%), followed by fibrillary astrocytomas (53%) and oligoastrocytomas (44%), but infrequent (13%) in oligodendrogliomas. LOH 1p/19q typically occurred in tumors without TP53 mutations and were most frequent in oligodendrogliomas (69%), followed by oligoastrocytomas (45%), but were rare in fibrillary astrocytomas (7%) and absent in gemistocytic astrocytomas. Glioblastomas were most frequent (3.55 cases per 100,000 persons per year) adjusted to the European Standard Population, amounting to 69% of total incident cases. Observed survival rates were 42.4% at 6 months, 17.7% at one year, and 3.3% at 2 years. For all age groups, survival was inversely correlated with age, ranging from an MST of 8.8 months (<50 years) to 1.6 months (>80 years). In glioblastomas, LOH 10q was the most frequent genetic alteration (69%), followed by EGFR amplification (34%), TP53 mutations (31%), p16INK4a deletion (31%), and PTEN mutations (24%). LOH 10q occurred in association with any of the other genetic alterations, and was the only alteration associated with shorter survival of glioblastoma patients. Primary (de novo) glioblastomas prevailed (95%), while secondary glioblastomas that progressed from low-grade or anaplastic gliomas were rare (5%). Secondary glioblastomas were characterized by frequent LOH 10q (63%) and TP53 mutations (65%). Of the TP53 mutations in secondary glioblastomas, 57% were in hot-spot codons 248 and 273, while in primary glioblastomas, mutations were more evenly distributed. G:C-->A:T mutations at CpG sites were more frequent in secondary than primary glioblastomas, suggesting that the acquisition of TP53 mutations in these glioblastoma subtypes may occur through different mechanisms.     

Genetic alterations and biomarkers for glioma

Over the last decade, significant progress has been made in understanding glioma on a molecular level. However, optimal incorporation of molecular markers into clinical care is still controversial. Here, the potential utility of genetic alterations found in gliomas in refining histological diagnosis, prognosis, and predictive values for treatment selection is reviewed. Among all, O6-methylguanine-DNA methyltransferase (MGMT) promoter methylation, 1p/19q codeletion, and isocitrate dehydrogenase 1 (IDH1) mutations have been identified as favorable prognostic markers. MGMT promoter methylation is the only potential predictive marker for response to temozolomide and alkylating agents in glioblastoma (GBM), but it is not of assistance in diagnostics. IDH1 mutations and 1p/19q codeletion are also useful for classifying and grading gliomas, since 1p/19q codeletion is tightly linked to oligodendroglial lineage, and IDH1 mutations are restricted to grade II/III gliomas, while not to primary GBM. BRAF fusion is a good marker for pilocytic astrocytoma. High-throughput profiling techniques for gene expression and epigenetic modification have provided new subtype classifications for GBM as well as lower grade gliomas, which may be of prognostic and predictive values. Efforts to identify molecular markers that predict the benefits of novel molecularly targeted treatments will enable better patient stratification and individualization of treatment.