Andreas Hoeflich

Comprehensive galectin fingerprinting in a panel of 61 human tumor cell lines by RT-PCR and its implications for diagnostic and therapeutic procedures.

Purpose: Knowledge about galectin expression by human tumor cells is mainly restricted to galectins-1 and -3. This study was conducted to define the gene expression pattern of all presently known human galectins in tumor cell lines of various histogenetic origin (galectinomics). Methods: The presence of mRNAs for human galectins-1, -2, -3, -4, -7, -8, and -9 was monitored by RT-PCR analyses in a panel of 61 human tumor cell lines of different origin (breast, colon, lung, brain, skin, kidney, urogenital system, hematopoietic system). Results: The validity of the technique was first confirmed by comparison of RT-PCR data with those obtained by Western blotting and cytofluorometry for galectins-1 and -3 in 18 cell lines. The following detection of a complex pattern of gene expression beyond commonly studied galectins-1 and -3 underscored the need for this fingerprinting. The most abundantly expressed message for a member of this lectin family was galectin-8 with 59 positive cell lines. With the exception of the tested lung tumors, galectin-1 and -3 transcripts were frequently expressed in the cell line panel with differences between individual cases. Positivity for galectins-2 and -4 was confined to a significant fraction of colorectal and neural tumors. Signals for galectin-9, the third known human tandem-repeat-type galectin besides -4 and -8, appeared in colorectal carcinoma cell lines with a frequency similar to that of galectin-4 but with inter-line differences. Its expression was restricted to lines of this tumor type, of the tested ovarian carcinoma, and hematopoietic malignancies. Conclusions: The results clearly demonstrate that human tumor cells express more mRNA species for galectins than those for galectins-1 and -3. To derive unequivocal diagnostic and prognostic information by immunohistochemistry on galectins with antagonistic impact on growth control and significant influence on cell adhesion, additional monitoring of these so far insufficiently studied family members is essential.

Overexpression of Insulin-Like Growth Factor-Binding Protein-2 in Transgenic Mice Reduces Postnatal Body Weight Gain

Insulin-like growth factor (IGF)-binding protein-2 (IGFBP-2) has been shown to inhibit IGF-dependent cell proliferation in a number of in vitro studies. However, no in vivo model of IGFBP-2 overexpression has been established so far. Therefore, we have generated transgenic mice, in which expression of a mouse IGFBP-2 complementary DNA is controlled by the cytomegalovirus (CMV) promoter. In two independent transgenic strains, transgene expression was highest in pancreas and stomach, followed by skeletal muscle, heart, colon, spleen, adipose tissue, brain, and kidney. Within the pancreas, IGFBP-2 expression was found in the islets but not in the exocrine part. Serum IGFBP-2 levels of CMV-IGFBP-2 transgenic mice were about 3-fold (P , 0.05) increased, compared with controls, whereas serum levels of IGF-I and IGF-II were unaffected by IGFBP-2 overexpression. Fasted serum glucose and fasted insulin levels were slightly reduced in transgenic mice, compared with controls. Postprandial serum glucose insulin levels were not affected by the genotype. At days later than 23, body weights of transgenic mice were significantly (P , 0.05) reduced in both sexes, compared with nontransgenic littermates. This reduction in body weight was mainly attributable to significantly (P , 0.05) lower carcass weights of CMVIGFBP-2 transgenic vs. control mice. In contrast, absolute organ weights were not (or only as a tendency) reduced, except for the weight of the spleen, which was significantly (P , 0.05) lower in male transgenic than in control mice. Our data suggest that IGFBP-2 represents a negative regulator of postnatal growth in mice, potentially by reducing the bioavailability of IGF-I. (Endocrinology 140: 5488 ‐5496, 1999)

Tumor galectinology: Insights into the complex network of a family of endogenous lectins

Abstractβ-Galactosides of cell surface glycoconjugates are docking sites for endogenous lectins of the galectin family. In cancer cells, primarily galectins-1 and -3 have been studied to date. With the emergence of insights into their role in growth control, resistance to or induction of apoptosis and invasive behavior the notion is supported that they can be considered as functional tumor markers. In principle, the same might hold true for the other members of the galectin family. But their expression in tumors has hitherto been a subject of attention only to a very limited extent. Pursuing our concept to define the complexity of the galectin network in cancer cells and the degree of functional overlap/divergence with diagnostic/therapeutic implications, we have introduced comprehensive RT-PCR monitoring to map their galectin gene expression. The data on so far less appreciated galectins in this context such as galectins-4 and -8 vindicate this approach. They, too, attach value to extend the immunohistochemical panel accordingly. Our initial histopathological and cell biological studies, for example on colon cancer progression, prove the merit of this procedure. Aside from the detection of gene expression profiles by RT-PCR, the detailed molecular biological monitoring yielded further important information. We describe different levels of regulation of galectin production in colon cancer cells in the cases of the tandem-repeat-type galectins-8 and -9. Isoforms for them are present with insertions into the peptide linker sequence attributed to alternative splicing. Furthermore, variants with distinct amino acid substitutions (galectin-8, Po66-CBP, PCTA-1, CocaI/II and galectin-9/ecalectin) and generation of multiple mRNA species, notably those coding for truncated galectin-8 and -9 versions with only one lectin site, justify to portray these two family members not as distinct individuals but as groups. In aggregate, the ongoing work to thoroughly chart the galectin network and to disentangle the individual functional contributions is expected to make its mark on our understanding of the malignant phenotype in certain tumor types. Published in 2004.

Interleukin-6 stimulates clonogenic growth of primary and metastatic human colon carcinoma cells

Interleukin-6 (IL-6) is a pleiotropic cytokine which exerts biological activities on various cell types including neoplastic cells. We have investigated the biological effect of IL-6 and the expression of IL-6 receptors (IL-6R) on human colorectal carcinoma cell lines. Isreco-1 was derived from the primary site of a colon cancer while Isreco-2 and Isreco-3 were established from a liver and peritoneal metastasis of the same patient. IL-6 stimulated colony formation in methylcellulose of Isreco-1 cells to 150% (P < 0.05). The effect was even more pronounced on the metastatic Isreco-2 line where colony numbers in the presence of IL-6 were enhanced up to four-fold (P < 0.0001) in a dose-dependent fashion. An anti-IL-6 antibody completely abolished this growth stimulatory effect of IL-6. RT-PCR analysis revealed transcripts for IL-6Ralpha and gp 130 in these cell lines. Experiments with additional cell lines confirmed the general expression of gp130 but showed limited expression of the IL-6Ralpha chain. Surprisingly, about half of the cell lines tested expressed IL-6 mRNA at low levels which was not translated into protein. Our results suggest that IL-6 can potently stimulate anchorage-independent growth of some colorectal carcinoma cells. This stimulation appears to occur through a paracrine mechanism.

Transgenic mouse models for studying the functions of insulin-like growth factor-binding proteins

The insulin‐like growth factor‐binding proteins (IGFBPs) comprise a family of six related peptides that interact with high affinity with IGFs. IGFBPs compete with IGF receptors for IGF binding, and as a consequence of this competition they can affect cell growth. In addition, IGF‐independent regulatory mechanisms of IGFBPs have been described. Despite their common property to interact with IGFs every IGFBP is expressed in a tightly regulated time‐ and tissue‐specific manner suggesting that each protein may have its own distinct functions. Several transgenic mouse models overexpressing IGFBP‐1, −2, −3, or −4 were developed in the past few years. Brain abnormalities were a common feature of IGFBP‐1 transgenic models. Individual strains showed alterations in glucose homeostasis, reproductive performance, and a reduction of somatic growth as the most prominent phenotypes. The latter was also the main effect observed in IGFBP‐2 transgenic mice. The overexpression of IGFBP‐3 under the control of an ubiquitous promoter resulted in selective organomegaly, whereas mammary gland‐targeted expression of this protein caused an altered involution after pregnancy in this organ. Tissue‐specific overexpression of IGFBP‐4 resulted in hypoplasia and reduced weight of smooth muscle‐rich tissues such as bladder, aorta, and stomach. This review summarizes the current knowledge about the actions of IGFBPs in vivo based on the presently established transgenic mice.—Schneider, M. R., Lahm, H., Wu, M., Hoeflich, A., Wolf, E. Transgenic mouse models for studying the functions of insulin‐like growth factor‐binding proteins. FASEB J. 14, 629–640 (2000)

Dual control of mitochondrial biogenesis by sirtuin 1 and sirtuin 3

In this review, we discuss the dual control of mitochondrial biogenesis and energy metabolism by silent information regulator-1 and -3 (SIRT1 and SIRT3). SIRT1 activates the peroxisome proliferator activated receptor γ co-activator 1α (PGC-1α)-mediated transcription of nuclear and mitochondrial genes encoding for proteins promoting mitochondria proliferation, oxidative phosphorylation and energy production, whereas SIRT3 directly acts as an activator of proteins important for oxidative phosphorylation, tricarboxylic acid (TCA) cycle and fatty-acid oxidation and indirectly of PGC-1α and AMP-activated protein kinase (AMPK). The complex network involves different cellular compartments, transcriptional activation, post-translational modification and a plethora of secondary effectors. Overall, the mode of interaction between both sirtuin family members may be considered as a prominent case of molecular job-sharing.

Growth Inhibition in Giant Growth Hormone Transgenic Mice by Overexpression of Insulin-Like Growth Factor-Binding Protein-2

To clarify the role of insulin-like growth factor (IGF)-binding protein-2 (IGFBP-2) in postnatal growth regulation, we crossed hemizygous CMV-IGFBP-2 transgenic mice with hemizygous PEPCK-bGH transgenic mice, which are characterized by serum GH levels in the range of 2 μg/ml. Four genetic groups were obtained: animals carrying both transgenes (GB), the GH (G) or the IGFBP-2 transgene (B), and nontransgenic controls (C). Male offspring were analyzed for serum levels of IGF-I, for serum and tissue levels of IGFBP-2, and for body and organ growth. Serum IGF-I levels were 2- to 3-fold increased (P < 0.001) in the GH-overexpressing groups, with no difference between G and GB mice. Serum IGFBP-2 levels were 4- to 9-fold (P < 0.001) increased both in B and GB vs. C and G mice. Western immunoblot analysis did not reveal differences in tissue IGFBP-2 levels between B and GB mice. IGFBP-2 levels were highest in pancreas, followed by skeletal muscle, heart, kidney, brain, skin, and spleen. No elevation of IGFBP-2 wa...

Induction of a Senescent-Like Phenotype Does Not Confer the Ability of Bovine Immortal Cells to Support the Development of Nuclear Transfer Embryos

Abstract Previously, we reported that cloned embryos derived from an immortalized bovine mammary epithelial cell line (MECL) failed to develop beyond 12- to 16-cell stage. To analyze whether induction of a senescent-like phenotype in MECL can improve their ability to support the development after transfer into enucleated oocytes, we treated MECL with DNA methylation inhibitor 5-aza-2-deoxycytidine (Aza-C), histone deacetylase inhibitors trichostatin A (TSA), sodium butyrate (NaBu), or 5-bromodeoxyuridine and used those cells for nuclear transfer. Primary bovine fetal fibroblasts (BFF) were used as control. All agents were capable to induce features of senescence including reduced cell proliferation, enlarged cell size with a considerable proportion of cells stained positive for acidic senescence-associated β-galactosidase and G1/S cell cycle boundary arrest in MECL. Aza-C treatment induced genome demethylation. Acetylation of H3 and H4 was increased after TSA treatment in both MECL and BFF, whereas no obvious changes in global H3 or H4 acetylation were detected after NaBu treatment. Nuclear transfer experiments following diverse treatments demonstrated that the induced senescent-like phenotype of MECL did not confer their ability to support embryonic development, although 7.3% of reconstructed embryos derived from NaBu-treated cells developed to morula stage. Intriguingly, a much higher proportion of cloned embryos developed to blastocysts when using NaBu-treated BFF, compared with using untreated BFF (59% versus 26%). Our results suggest that the developmental failure of donor nuclei from bovine immortal cells could not be reversed by induction of senescent-like phenotype. The beneficial effect of NaBu on the developmental potential of cloned embryos reconstructed from BFF merits further studies.

Insulin-like growth factor-binding protein-2 (IGFBP-2) overexpression negatively regulates bone size and mass, but not density, in the absence and presence of growth hormone/IGF-I excess in transgenic mice.

Insulin-like growth factor-binding protein-2 (IGFBP-2) has been suggested to be a negative regulator of bone growth and maintenance. The objective of this study was to characterize the effect of elevated IGFBP-2 on the skeletal phenotype of adult transgenic mice, in the absence and presence of growth hormone (GH) excess. 43 male mice were examined at an age of 4 months (7 IGFBP-2 transgenic mice, 12 GH transgenic mice, 10 mice carrying both transgenes, and 14 controls). The bone mineral content of the total skeleton and of isolated bones was quantified by dual energy X-ray absorptiometry (DXA), after validation versus ash analysis. Cortical and trabecular bone was quantified by peripheral quantitative computed tomography (pQCT), after validation versus micro CT. A strong linear relationship was found between DXA and ash weight, and between pQCT and µCT (r>0.95). Bone size and bone mineral content were significantly reduced in IGFBP-2 transgenic mice, the magnitude of the effect varying between skeletal sites and between bone compartments. Elevated IGFBP-2 negatively modulated the GH-stimulated increase in bone size and mineral content, and completely blocked GH-effects at cortical sites. Notably, bone density was not decreased in IGFBP-2 transgenic animals compared with controls. In conclusion, IGFBP-2 is identified as a potent negative regulator of normal and GH-stimulated bone growth in vivo. Interestingly, elevated IGFBP-2 levels did not lead to a decrease in bone density, suggesting that IGFBP-2 negatively affects bone size and mineral content, but not bone maintenance in adult mice.

Insulin-Like Growth Factor II (IGF-II) and the IGF-II/ Mannose-6-Phosphate Receptor: The Myth Continues

Insulin-like growth factor II (IGF-II) is a polypeptide hormone with structural and functional homology with IGF-I and pro-insulin. It is now thought that IGF-II acts as a growth factor during fetal life and development. In rats, IGF-II levels in the circulation are high in the fetus and decline rapidly after birth. IGF-II mRNA expression in many tissues including the liver and the choroid plexus is also high during fetal life and low thereafter. Targeted disruption of the IGF-II gene in mice leads to a deficiency in their growth. Alternatively, it has been proposed that IGF-II could act as a growth and differentiation factor in the central nervous system. Administration of IGF-II into the central nervous system in rats leads to increased food intake and altered feeding behaviour. In muscle cells and in colon epithelial cells, IGF-II might also serve as an important regulator of differentiation. A key role for IGF-II as a paracrine or autocrine growth factor in certain tumours has been proposed. The IGFs exert their effects by binding to high-affinity membrane receptors that are expressed in many cells and tissues. The IGF-I receptor, which binds IGF-I with the highest affinity and which is very similar to the insulin receptor, is thought to mediate most, if not all, of the IGF-induced biological functions. The IGF-II/mannose-6-phosphate (M6P) receptor is a bifunctional glycoprotein with no homology to the insulin receptor. This receptor binds IGF-II and lysosomal enzymes bearing the M6P recognition marker at distinct binding sites.(ABSTRACT TRUNCATED AT 250 WORDS)