Karl-Heinz Heider

TGFβ signaling is necessary for carcinoma cell invasiveness and metastasis

BACKGROUND Invasive growth of epithelial tumor cells, a major cause of death from cancer in humans, involves loss of epithelial polarity and dedifferentiation. Transforming growth factor beta (TGFbeta) is regarded as a major tumor suppressor during early tumor development because it inhibits cell-cycle progression and tumor growth. Many dedifferentiated, late-stage tumors are resistant to growth inhibition by TGFbeta, however, and even secrete TGFbeta. In line with this, TGFbeta is involved in angiogenesis, wound healing and epithelial-mesenchymal transition (EMT) during development. Ha-Ras-transformed mammary epithelial cells (EpRas) undergo TGFbeta-induced EMT maintained via a TGFbeta autocrine loop. Thus, we have analyzed whether signal transduction by the TGFbeta receptor (TGFbetaR) is required for local tumor cell invasion and metastasis. RESULTS A dominant-negative type II TGFbetaR (TGFbetaRII-dn) was expressed using retroviral vectors in EpRas cells and highly metastatic mesenchymal mouse colon carcinoma cells (CT26). In both cell types, TGFbetaRII-dn blocked TGFbetaR signaling and heavily delayed tumor formation. In EpRas cells, TGFbetaRII-dn prevented EMT. In the dedifferentiated mesenchymal CT26 cells, TGFbetaRII-dn caused mesenchymal-to-epithelial transition and inhibited their in vitro invasiveness in several assays. In addition, TGFbetaRII-dn completely abolished metastasis formation by CT26 cells. Furthermore, several human carcinoma lines lost in vitro invasiveness when treated with neutralizing TGFbeta antibodies or soluble receptor variants. Finally, human colon carcinoma cells (hnPCC) expressing a mutated, non-functional TGFbetaRII were non-invasive in vitro, a defect restored by re-expressing wild-type TGFbetaRII. CONCLUSIONS Cell-autonomous TGFbeta signaling is required for both induction and maintenance of in vitro invasiveness and metastasis during late-stage tumorigenesis. TGFbetaRII therefore represents a potential target for therapeutical intervention in human tumorigenesis.

Polycation-based DNA complexes for tumor-targeted gene delivery in vivo.

Efficient and target‐specific in vivo gene delivery is a major challenge in gene therapy. Compared to cell culture application, in vivo gene delivery faces a variety of additional obstacles such as anatomical size constraints, interactions with biological fluids and extracellular matrix, and binding to a broad variety of non‐target cell types.

Tissue-Wide Expression Profiling Using cDNA Subtraction and Microarrays to Identify Tumor-Specific Genes

With the objective of discovering novel putative intervention sites for anticancer therapy, we compared transcriptional profiles of breast cancer, lung squamous cell cancer (LSCC), lung adenocarcinoma (LAC), and renal cell cancer (RCC). Each of these tumor types still needs improvement in medical treatment. Our intention was to search for genes not only highly expressed in the majority of patient samples but which also exhibit very low or even absence of expression in a comprehensive panel of 16 critical (vital) normal tissues. To achieve this goal, we combined two powerful technologies, PCR-based cDNA subtraction and cDNA microarrays. Seven subtractive libraries consisting of ∼9250 clones were established and enriched for tumor-specific transcripts. These clones, together with ∼1750 additional tumor-relevant genes, were used for cDNA microarray preparation. Hybridizations were performed using a pool of 16 critical normal tissues as a reference in all experiments. In total, we analyzed 20 samples of breast cancer, 11 of LSCC, 11 of LAC, and 8 of RCC. To select for genes with low or even no expression in normal tissues, expression profiles of 22 different normal tissues were additionally analyzed. Importantly, this tissue-wide expression profiling allowed us to eliminate genes, which exhibit also high expression in normal tissues. Similarly, expression signatures of genes, which are derived from infiltrating cells of the immune system, were eliminated as well. Cluster analysis resulted in the identification of 527 expressed sequence tags specifically up-regulated in these tumors. Gene-wise hierarchical clustering of these clones clearly separated the different tumor types with RCC exhibiting the most homogenous and LAC the most diverse expression profile. In addition to already known tumor-associated genes, the majority of identified genes have not yet been brought into context with tumorigenesis such as genes involved in bone matrix mineralization (OSN, OPN, and OSF-2) in lung, breast, and kidney cancer or genes controlling Ca2+ homeostasis (RCN1,CALCA, S100 protein family). EGLN3, which recently has been shown to be involved in regulation of hypoxia-inducible factor, was found to be highly up-regulated in all RCCs and in half of the LSCCs analyzed. Furthermore, 42 genes, the expression level of which correlated with the overall survival of breast cancer patients, were identified. The gene dendogram clearly separates two groups of genes, those up-regulated such as cyclin B1, TGF-β3, B-Myb, Erg2, VCAM-1, and CD44 and those down-regulated such as MIG-6, Esp15, and CAK in patients with short survival time.

A novel Fc-engineered monoclonal antibody to CD37 with enhanced ADCC and high proapoptotic activity for treatment of B-cell malignancies

The tetraspanin CD37 is widely expressed in B-cell malignancies and represents an attractive target for immunotherapy with mAbs. We have chimerized a high-affinity mouse Ab to CD37 and engineered the CH2 domain for improved binding to human Fcγ receptors. The resulting mAb 37.1 showed high intrinsic proapoptotic activity on malignant B cells accompanied by homotypic aggregation. Furthermore, the Ab-mediated high Ab-dependent cell-mediated cytotoxicity (ADCC) on lymphoma and primary CLL cells. mAb 37.1 strongly depleted normal B cells as well as spiked B-lymphoma cells in blood samples from healthy donors as well as malignant B cells in blood from CLL patients. In all assays, mAb 37.1 was superior to rituximab in terms of potency and maximal cell lysis. A single dose of mAb CD37.1 administered to human CD37-transgenic mice resulted in a reversible, dose-dependent reduction of peripheral B cells. In a Ramos mouse model of human B-cell lymphoma, administration of mAb 37.1 strongly suppressed tumor growth. Finally, a surrogate Fc-engineered Ab to macaque CD37, with in vitro proapoptotic and ADCC activities very similar to those of mAb 37.1, induced dose-dependent, reversible B-cell depletion in cynomolgus monkeys. In conclusion, the remarkable preclinical pharmacodynamic and antitumor effects of mAb 37.1 warrant clinical development for B-cell malignancies.

Human mammary carcinomas express homologues of rat metastasis-associated variants of CD44

SummarySplice variants of CD44 expressed in a metastasizing cell line derived from a rat pancreatic adenocarcinoma have been shown recently to confer metastatic potential onto non-metastasizing rat pancreatic carcinoma and sarcoma cell lines. Homologues of these variants have also been detected in a variety of human malignancies. Using antibodies raised against a bacterially expressed fusion protein containing variant CD44 sequences, we have explored the expression of variant CD44 glycoproteins on tumors of the female breast. The material examined included normal tissue, hyperplastic lesions, 103 primary invasive mammary carcinomas, 10in situ carcinomas, 12 local recurrences and 18 lymph node metastases. Using a polyclonal serum directed against several variant CD44 epitopes, normal mammary epithelia as well as ductal hyperplasias were negative for these splice variants, while the variant CD44 epitopes were detectable in all but six of the primary invasive carcinomas. From the reaction with various monoclonal antibodies and polyclonal sera specific for individual epitopes it is obvious that the tumors predominantly express CD44 variants encoded by exons v5 to v7. Interestingly, all investigated lymph node metastases reacted positively with the variant-specific antibodies, in contrast to primary tumors which reacted in 54% to 86% of the cases, depending on the antibody used. Statistical analysis revealed a significant correlation between expression of variant exons v3/v4 and v6 and increased tumor grade (p = 0.001 and p < 0.05, respectively; Fishers exact test). Exon v6 is carried by the variants which confer metastatic capability in the rat. These results indicate that the expression of the CD44 variants is upregulated in mammary carcinomas and is closely linked to tumor anaplasia.

Tumor targeting properties of monoclonal antibodies with different affinity for target antigen CD44V6 in nude mice bearing head-and-neck cancer xenografts.

The CD44 protein family consists of isoforms with tissue‐specific expression, which are encoded by standard exons and up to 9 alternatively spliced variant exons (v2–v10) of the same gene. The murine MAbs U36 and BIWA‐1, directed against overlapping epitopes within the v6 region of CD44, have previously been shown to efficiently target HNSCC. We herein report on the construction of 1 chimeric (BIWA‐2) and 2 humanized (BIWA‐4 and BIWA‐8) derivatives of BIWA‐1. Together with U36 and BIWA‐1, these new antibodies were evaluated for affinity to the antigen in vitro as well as for biodistribution and efficacy in RIT using nude mice bearing the HNSCC xenograft line HNX‐OE. As determined by surface plasmon resonance, the MAbs bound to CD44v6 with an up to 46‐fold difference in affinity (Kd ranging from 1.1 × 10−8 to 2.4 × 10−10 M) with the following ranking: mMAb U36 < hMAb BIWA‐4 < hMAb BIWA‐8 < mMAb BIWA‐1 ∼ cMAb BIWA‐2. To evaluate their in vivo tumor‐targeting properties, 2 MAbs with identical murine or human isotype were labeled with either 131I or 125I and administered simultaneously (50 μg/10 μCi each) as pairs showing a stepwise decrease in the difference in affinity: U36 vs. BIWA‐1 (35.0‐fold difference), BIWA‐4 vs. BIWA‐2 (14.0‐fold) and BIWA‐4 vs. BIWA‐8 (4.0‐fold). Biodistribution was assessed at 1, 2, 3 or 4 and 7 days after injection. Remarkably, for all 3 MAb pairs tested, the lower‐affinity MAb showed a higher degree and specificity of tumor localization. The difference in tumor localization was more pronounced when the difference in affinity was larger. For example, 3 days after injection, the lower‐affinity mMAb U36 showed a 50% higher tumor uptake than the higher‐affinity mMAb BIWA‐1, while blood levels and uptake in organs were similar. After labeling with 186Re (300 or 400 μCi), the same MAb pairs showed RIT efficacy consistent with the biodistribution data: 186Re‐U36 was more effective than 186Re‐BIWA‐1, 186Re‐BIWA‐4 was slightly more effective than 186Re‐BIWA‐2 and 186Re‐BIWA‐4 and 186Re‐BIWA‐8 demonstrated similar efficacy. Based on these data, we conclude that antibodies with markedly lower affinity to a given target antigen (e.g., U36, BIWA‐4) may show superior tumor targeting in comparison with higher‐affinity versions of these antibodies.

Isoform Expression of CD44 Adhesion Molecules, Bcl-2, p53 and Ki-67 Proteins in Lung Cancer

CD44, belongs to the cell adhesion molecule family and is expressed on cell surfaces in several isoforms which are generated by alternative splicing of messenger RNA. These splice variants have been shown in several cancer cell types and are thought to be involved in tumor progression. The aim of the current study was to evaluate the expression of selected CD44 variants on lung cancer cells of various histology and to compare these with other markers of tumor spread. Surgical samples of primary lung carcinoma of various histology were subjected to alkaline phosphatase-anti-alkaline phosphatase complex immunohistochemistry using a panel of monoclonal antibodies: anti-CD44 v5, v6, v7/8, v10, anti-Ki-67, anti-Bcl-2 and anti-p53. Positive cells were scored in a semiquantitative way. The patients were subdivided into groups with and without metastases, as found during surgery. All CD44 variants tested could be demonstrated on lung cancer cells, but the incidence of particular isoforms varied, depending on lung cancer histology. In general, CD44 expression was highest in squamous cell tumors and lowest in anaplastic small cell carcinomas. Squamous cell cancers had high expression of v5 and v6 variants, while in anaplastic large cell and small cell carcinomas v10 was abundant. When Ki-67, Bcl-2 and p53 protein expression was compared to the incidence of CD44 variants, coincidence was found for v10 only. Most of the cases positive for v10 were also Ki-67 positive (p = 0.0146). In 12 cases with metastases, tumor cells had high v6 and Ki-67 expression, but these data were not significant compared to cases without metastases. Overall, these data suggest that v5 and v6 variants are of significance in squamous cell lung carcinoma, presumably in the promotion of metastasis, while in anaplastic small cell or large cell cancers only v10 expression seems to correlate with proteins associated with tumor growth and progression.

Cd44 and Splice Variants of Cd44 in Normal Differentiation and Tumor Progression

CD44, originally defined by antibodies as a leukocyte surface protein (reviewed in Haynes et al., 1989), has become a polymorphic family of proteins expressed in various cells and conditions. The polymorphism is due to differential modifications and to splice variation (Hughes et al., 1983; Omary et al., 1988; Kansas et al., 1989; Picker et al., 1989; Goldstein et al., 1989; Goldstein and Butcher, 1990; Stamenkovic et al., 1991, Dougherty et al., 1991; Brown et al., 1991; Gunthert et al., 1991; Shtivelman and Bishop, 1991; Jackson et al., 1992). Because of the polymorphism a multitude of functions can be expected. Yet these need t be defined. All or part of the CD44 glycoproteins have affinity for hyaluronic acid, some forms are linked to chondoitin sulfate and bind fibronectin and collagen (Aruffo et al., 1990; Miyake et al., 1990; Stamenkovic et al., 1989; Goldstein et al., 1989; Wolffe et al. 1990; Carter and Wayner, 1988; Jalkanen and Jalkanen, 1992). These affinnites may have functions in association with different primary structures domains introduced by splice variation.

Decitabine enhances anti-CD33 monoclonal antibody BI 836858–mediated natural killer ADCC against AML blasts

Acute myeloid leukemia (AML) is the most common type of acute leukemia, affecting older individuals at a median age of 67 years. Resistance to intensive induction chemotherapy is the major cause of death in elderly AML; hence, novel treatment strategies are warranted. CD33-directed antibody-drug conjugates (gemtuzumab ozogamicin) have been shown to improve overall survival, validating CD33 as a target for antibody-based therapy of AML. Here, we report the in vitro efficacy of BI 836858, a fully human, Fc-engineered, anti-CD33 antibody using AML cell lines and primary AML blasts as targets. BI 836858-opsonized AML cells significantly induced both autologous and allogeneic natural killer (NK)-cell degranulation and NK-cell-mediated antibody-dependent cellular cytotoxicity (ADCC). In vitro treatment of AML blasts with decitabine (DAC) or 5-azacytidine, 2 hypomethylating agents that show efficacy in older patients, did not compromise BI 836858-induced NK-cell-mediated ADCC. Evaluation of BI 836858-mediated ADCC in serial marrow AML aspirates in patients who received a 10-day course of DAC (pre-DAC, days 4, 11, and 28 post-DAC) revealed significantly higher ADCC in samples at day 28 post-DAC when compared with pre-DAC treatment. Analysis of ligands to activating receptors (NKG2D) showed significantly increased NKG2D ligand [NKG2DL] expression in day 28 post-DAC samples compared with pre-DAC samples; when NKG2DL receptor was blocked using antibodies, BI 836858-mediated ADCC was significantly decreased, suggesting that DAC enhances AML blast susceptibility to BI 836858 by upregulating NKG2DL. These data provide a rationale for combination therapy of Fc-engineered antibodies such as BI 836858 with azanucleosides in elderly patients with AML.

Combined treatment of the immunoconjugate bivatuzumab mertansine and fractionated irradiation improves local tumour control in vivo

BACKGROUND AND PURPOSE To test whether BIWI 1 (bivatuzumab mertansine), an immunoconjugate of the humanized anti-CD44v6 monoclonal antibody BIWA 4 and the maytansinoid DM1, given simultaneously to fractionated irradiation improves local tumour control in vivo compared with irradiation alone. MATERIAL AND METHODS For growth delay, FaDu tumours were treated with 5 intravenous injections (daily) of phosphate buffered saline (PBS, control), BIWA 4 (monoclonal antibody against CD44v6) or BIWI 1 (bivatuzumab mertansine) at two different dose levels (50 μg/kg DM1 and 100 μg/kg DM1). For local tumour control, FaDu tumours received fractionated irradiation (5f/5d) with simultaneous PBS, BIWA 4 or BIWI 1 (two dose levels). RESULTS BIWI 1 significantly improved local tumour control after irradiation with 5 fractions already in the lower concentration. The dose modifying factor of 1.9 is substantial compared to the majority of other modifiers of radiation response. CONCLUSION Because of the magnitude of the curative effect, this approach is highly promising and should be further evaluated using similar combinations with improved tumour-specificity.