Sebastian Heikaus

A single nucleotide polymorphism determines protein isoform production of the human c-FLIP protein

The cellular FLICE-inhibitory protein (c-FLIP) is a modulator of death receptor-mediated apoptosis and plays a major role in T- and B-cell homeostasis. Three different isoforms have been described on the protein level, including the long form c-FLIP(L) as well as 2 short forms, c-FLIP(S) and the recently identified c-FLIP(R). The mechanisms controlling c-FLIP isoform production are largely unknown. Here, we identified by sequence comparison in several mammals that c-FLIP(R) and not the widely studied c-FLIP(S) is the evolutionary ancestral short c-FLIP protein. Unexpectedly, the decision for production of either c-FLIP(S) or c-FLIP(R) in humans is defined by a single nucleotide polymorphism in a 3 splice site of the c-FLIP gene (rs10190751A/G). Whereas an intact splice site directs production of c-FLIP(S), the splice-dead variant causes production of c-FLIP(R). Interestingly, due to differences in protein translation rates, higher amounts of c-FLIP(S) protein compared with c-FLIP(R) are produced. Investigation of diverse human cell lines points to an increased frequency of c-FLIP(R) in transformed B-cell lines. A comparison of 183 patients with follicular lymphoma and 233 population controls revealed an increased lymphoma risk associated with the rs10190751 A genotype causing c-FLIP(R) expression.

Caspase-8 and its inhibitors in RCCs in vivo: the prominent role of ARC

Activation of the initiator-caspase, caspase-8 is under tight control of multiple antiapoptotic regulators including ARC, cFlipS, cFlipL and PED/PEA-15. Since there is little data regarding the expression of caspase-8 and its antiapoptotic regulators in human tumours inxa0vivo, we analysed their expression in renal cell carcinomas (RCCs) to identify which of these genes might be crucial for the well known impaired apoptosis and—as a result—resistance towards chemotherapy and ionizing radiation of RCCs. Caspase-8, cFlipS, cFlipL and PED/PEA-15 mRNA expression was significantly increased only in early stages of RCCs compared to non-neoplastic renal tissue. In contrast, ARC mRNA expression was significantly increased in RCCs of all stages without differences between the tumour stages and grades. Importantly, the relative mRNA expression ratio between ARC and caspase-8 was significantly increased during carcinogenesis and tumour progression. In contrast, the relative mRNA expression ratio between cFlipS, cFlipL or PED/PEA-15 and caspase-8 remained constant during all tumour stages. In conclusion, our analysis revealed that ARC is the only caspase-8 inhibiting regulator being constantly overexpressed in RCCs. Furthermore, the balance between antiapoptotic ARC and proapoptotic caspase-8 is the only one to be disturbed during carcinogenesis and tumour progression of RCCs. This inhibition of Caspase-8 might therefore be one example for the multiple antiapoptotic functions of ARC in RCCs possibly contributing to the marked resistance of RCCs towards radio- and chemotherapy and reflects a shift of gene expression towards a more antiapoptotic context in RCCs.

Disturbed expression of the apoptosis regulators XIAP, XAF1, and Smac/DIABLO in gastric adenocarcinomas.

Dysregulation of apoptosis plays an important role in carcinogenesis and tumor progression. Whereas x-linked inhibitor of apoptosis (XIAP) is a potent inhibitor of apoptosis, its antagonists second mitochondria-derived activator of caspases/direct IAP binding protein with low PI (Smac/DIABLO), and XIAP-associated factor 1 (XAF1) promote apoptosis. To explore the relevance of XIAP, Smac/DIABLO, and XAF1 for carcinogenesis and tumor progression, we analyzed 46 primary gastric adenocarcinomas and non-neoplastic gastric mucosa samples by quantitative real-time polymerase chain reaction. XIAP, Smac/DIABLO, and XAF1 expression was found in all non-neoplastic gastric mucosa samples and all adenocarcinomas. XIAP expression levels did not change between non-neoplastic gastric mucosa and adenocarcinomas or between carcinomas of early and advanced stages. Although Smac/DIABLO expression was significantly (P=0.01) higher in carcinomas, the ratio of XIAP to Smac/DIABLO expression remained stable between non-neoplastic mucosa and carcinomas. XAF1 expression had the tendency to decrease from non-neoplastic mucosa to advanced adenocarcinomas. Importantly, the ratio of XIAP to XAF1 expression significantly (P=0.03) increased from non-neoplastic mucosa to adenocarcinomas and the increase was even higher in carcinomas of advanced stage (P=0.01). Moreover, expression of the XAF1 splice variants differing in the zinc-finger domain essential for XIAP-binding was analyzed and revealed a significant higher (P=0.03) variant-2/variant-1 ratio in advanced carcinomas. In conclusion, an increased expression ratio of XIAP to XAF1 in combination with a disturbed expression of the XAF1 splice variants could be shown in gastric adenocarcinomas. These marked imbalances probably result in an impaired ability for XAF1 to antagonize the effects of XIAP thereby contributing to apoptosis-resistance and generating an important growth advantage.

Bilateral multifocal Warthin's tumors in upper neck lymph nodes. report of a case and brief review of the literature

Cystadenolymphomas (Warthins tumors) are the second most frequent lesions of the parotid gland. Due to their benign clinical behavior, the low rates of recurrence and malignant transformation they were classified as tumor-like lesions. In addition, a polyclonal growth of the epithelial components of the tumor could be detected. Warthins tumors occur bilateral in 7-10%, whereas a multifocal appearance is extremely rare. Even if the pathogenesis is still unclear a heterotopia of salivary tissue during embryogenesis is the most likely explanation for the origin of these tumors in the upper neck and periparotideal region. Here we present a rare case of bilateral, multifocal, extraglandular Warthins tumors in lymph nodes of the upper neck and give a brief review of the literature. If a primary malignancy can be excluded by a careful staging procedure prior to the operation an isolated excision of the lesions of the neck is the adequate treatment.

A reliable in vitro model for studying peripheral nerve myelination in mouse.

The rat dorsal root ganglia (DRG) model is a long-standing in vitro model for analysis of myelination in the peripheral nervous system. For performing systematic, high throughput analysis with transgenic animals, a simplified BL6 mouse protocol is indispensable. Here we present a stable and reliable protocol for myelinating co-cultures producing a high myelin ratio using cells from C57BL/6 mice. As an easy accessible and operable method, Sudan staining proved to be efficient in myelin detection for fixed cultures. Green fatty acid stain turned out to be highly reliable for analysis of the dynamic biological processes of myelination in vital cultures. Once myelinated we were able to induce demyelination by the addition of forskolin into the model system. In addition, we provide an optimised rat DRG protocol with significantly improved myelin ratio and a comparison of the protocols presented. Our results strengthen the value of ex vivo myelination models in neurobiology.

Paclitaxel (Taxol®)-induced apoptosis in human epithelioid sarcoma cell lines is enhanced by upregulation of CD95 ligand (FasL/Apo-1L)

PurposeMetastasizing epithelioid sarcoma (ES) is an extremely aggressive tumor, because conventional chemotherapy and irradiation are largely ineffective. Here, we analyzed the impact of the CD95-mediated drug-induced apoptosis in ES cell lines.MethodsThe effects of paclitaxel (Taxol®) and 5-FU were determined by MTT assay. The extent of apoptosis was analyzed by light microscopy and Annexin V staining (flow cytometry). The expression of death receptors and ligands was defined by RT-PCR, Western blotting and flow cytometry.ResultsAll cell lines expressed CD95, but not the CD95 ligand. The CD95 activation resulted in apoptosis and cell death in all cell lines. Both paclitaxel and 5-FU are able to trigger apoptosis, and furthermore, to upregulate CD95, whereas only paclitaxel increases CD95 ligand expression. Neutralizing antibodies directed against CD95 ligand effectively inhibited paclitaxel-induced cell death, thereby providing evidence for a direct involvement of the CD95 system in paclitaxel-induced apoptosis.ConclusionsConcomitant upregulation of CD95 receptor and ligand may significantly enhance the response of ES to anticancer drugs. As evident from the differential response of our clonal ES subpopulations to paclitaxel and 5-FU, effective activation of the CD95 system depends on intrinsic properties of both the chemotherapeutic agent and target cell population.

EPCAM–A novel molecular target for the treatment of pediatric and adult germ cell tumors

Germ cell tumors (GCTs) are thought to develop from totipotent primordial germ cells. Although the epithelial cell adhesion molecule (EPCAM) is expressed on embryonic stem cells as well as different tumor cells, it has not yet been extensively studied in GCTs. We analyzed EPCAM expression by quantitative RT‐PCR in 48 fresh‐frozen GCT specimens of different histology (10 mature teratoma, MT; 6 immature teratoma, IT; 7 dysgerminoma; 6 mixed malignant GCTs; 19 yolk sac tumor, YST) and in the GCT cell lines NCCIT, TE76.T, JAR and 2102Ep, and correlated its expression with AFP and hCG protein levels, histologic differentiation, and clinical follow‐up data. EPCAM protein was visualized by immunohistochemistry of selected corresponding paraffin embedded tumor tissues. EPCAM was expressed in malignant but not in benign GCTs irrespective of age, sex, site and clinical stage of tumor (P = 0.001). In primary teratomas, EPCAM expression increased with their grade of immaturity (mean 2−ΔCt values: MT 0.23, IT 1.61, P = 0.007) and significantly correlated with serum AFP (P = 0.03) and hCG (P = 0.03) levels in malignant GCTs. Particularly high EPCAM levels were found in nonseminomatous GCTs such as YSTs (8.49) and choriocarcinoma (13.54). Immunohistochemical analysis verified gene expression data showing a distinct EPCAM staining in YST. Similarly in vitro, highest EPCAM expression was measured in GCT cell lines comprising yolk sac (2102Ep: 5.59) or choriocarcinoma (JAR: 10.65) components. This first comprehensive analysis of EPCAM in GCTs revealed high EPCAM expression in YSTs and choriocarcinomas. Thus, these nonseminomatous GCTs may be interesting targets for EPCAM immunotherapy, which has to be evaluated in further studies.

HA14-1 is Able to Reconstitute the Impaired Mitochondrial Pathway of Apoptosis in Renal Cell Carcinoma Cell Lines

Renal cell carcinomas (RCCs) exhibit a marked resistance towards apoptosis. Although most apoptotic stimuli converge at the level of the mitochondria, little is known about the mitochondrial apoptosis pathway in renal cell carcinomas. The aim of the present study, therefore, was to investigate the functionality of the mitochondrial apoptosis pathway in renal cell carcinoma cell lines by exposure to TRAIL, etoposide, HA14-1 and betulinic acid activating the mitochondria by different mechanisms. Sensitivity to TRAIL-induced apoptosis correlated with cleavage of the initiator caspase-8, but the mitochondrial apoptosis pathway was not induced. Similarly, etoposide and betulinic acid could not induce mitochondrial damage. In contrast, HA14-1 was able to activate mitochondrial apoptosis, thereby demonstrating functionally inducible signalling pathways downstream of the mitochondria. The intactness of the pathways upstream of the mitochondria was shown by pretreatment of TRAIL-sensitive cell lines with HA14-1, which could reconstitute TRAIL-induced mitochondrial damage and resulted in a synergistic apoptosis induction. Our results demonstrate that the apoptotic pathways upstream and downstream of the mitochondria are intact and inducible in renal cell carcinoma cell lines. However, resistance towards mitochondrial apoptosis is located on the level of the mitochondria themselves.

Intraoral Schwannoma: Review of the Literature and Presentation of a Rare Case

Abstract Schwannomas, also known as neurilemomas or neurilemmomas, are relatively uncommon, slow-growing benign tumors. Whereas, about one-third of all extracranial Schwannomas are found in the head and neck region, a few intraoral Schwannomas are reported in the literature. This article contributes to a review regarding the current literature and the report of a rare case. The literature searches were performed using the National Library of Medicine. Keywords used in the search were: schwannoma or neurilemmoma and intraoral. The literature search revealed 16,906 reports containing the word schwannoma; however, only 1,117 articles described this tumor entity in the “head and neck” region. The search item intraoral, in addition to schwannoma or neurilemmoma, were found in only 29 reports. In most cases, intraoral schwannomas are benign, slowly growing tumors. The treatment of choice is surgical excision. However, malignant schwannomas can also occur, and need a radical resection and a dissection of the regional lymph nodes.

PIDDosome expression and the role of caspase-2 activation for chemotherapy-induced apoptosis in RCCs

Background: The importance of caspase-2 activation for mediating apoptosis in cancer is not clear and seems to differ between different tumour types. Furthermore, only few data have been obtained concerning the expression of caspase-2, which can be alternatively spliced into caspase-2L and caspase-2S, and the other PIDDosome members PIDD and RAIDD in human tumours in vivo. We, therefore, investigated their expression in renal cell carcinomas (RCCs) of the clear cell type in vivo and analysed the role of caspase-2 in chemotherapy-induced apoptosis in RCCs in vitro. Methods: The analyses were performed by semiquantitative real-time PCR, Western Blot and Caspase-2 Assay. Results: Our in vivo results showed an overall decrease in proapoptotic caspase-2L expression during tumour progression due to an increase in the relative share of caspase-2S mRNA in total caspase-2 mRNA expression. Furthermore, an increase in the expression of PIDD and RAIDD could be observed. In contrast, antiapoptotic BCL-2 expression increased only during early tumour stages, whereas expression decreased in pT3 RCCs. In vitro, caspase-2 activation in RCC cell lines coincidenced with sensitivity of tumour cells towards Topotecan-induced apoptosis. However, inhibition of caspase-2 could not prevent Topotecan-induced apoptosis. Interestingly, Topotecan-resistance could be overcome by the apoptosis-sensitizing drug HA14-1. Conclusions: Our study confirms the concept of a shift towards a more antiapoptotic transcriptional context during tumour progression in RCCs. Furthermore, it shows that caspase-2 participates in chemotherapy-induced apoptosis in RCCs although it is not mandatory for it. Additionally, inhibition of antiapoptotic BCL-2 family members might provide a possible way to overcome chemotherapy resistance of RCCs.