Hannes Klump

Publications

• 6.24

  Impact points

  Lentiviral vector design and imaging approaches to visualize the early stages of cellular reprogramming.

  Eva Warlich, Johannes Kuehle, Tobias Cantz, Martijn H Brugman, Tobias Maetzig, Melanie Galla, Adam A Filipczyk, Stephan Halle, Hannes Klump, Hans R Schöler, Christopher Baum, Timm Schroeder, Axel Schambach

  Molecular therapy : the journal of the American Society of Gene Therapy. 02/2011; 19(4):782-9.

  Induced pluripotent stem cells (iPSCs) can be derived from somatic cells by gene transfer of reprogramming transcription factors. Expression levels of these factors strongly influence the overall efficacy to form iPSC colonies, but additional contribution of stochastic cell-intrinsic factors has bee... [more] Induced pluripotent stem cells (iPSCs) can be derived from somatic cells by gene transfer of reprogramming transcription factors. Expression levels of these factors strongly influence the overall efficacy to form iPSC colonies, but additional contribution of stochastic cell-intrinsic factors has been proposed. Here, we present engineered color-coded lentiviral vectors in which codon-optimized reprogramming factors are co-expressed by a strong retroviral promoter that is rapidly silenced in iPSC, and imaged the conversion of fibroblasts to iPSC. We combined fluorescence microscopy with long-term single cell tracking, and used live-cell imaging to analyze the emergence and composition of early iPSC clusters. Applying our engineered lentiviral vectors, we demonstrate that vector silencing typically occurs prior to or simultaneously with the induction of an Oct4-EGFP pluripotency marker. Around 7 days post-transduction (pt), a subfraction of cells in clonal colonies expressed Oct4-EGFP and rapidly expanded. Cell tracking of single cell-derived iPSC colonies supported the concept that stochastic epigenetic changes are necessary for reprogramming. We also found that iPSC colonies may emerge as a genetic mosaic originating from different clusters. Improved vector design with continuous cell tracking thus creates a powerful system to explore the subtle dynamics of biological processes such as early reprogramming events.

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• 4.20

  Impact points

  Cell and virus genetics at the roots of gene therapy, retrovirology, and hematopoietic stem cell biology: Wolfram Ostertag (1937-2010).

  Carol Stocking, Manuel Grez, Boris Fehse, Dorothee von Laer, Katsuhiko Itoh, Vladimir Prassolov, Joachim Nowock, Klaus Kühlcke, Ursula Just, Timm Schröder, [......], Elke Grassman, Johann Meyer, Zhixiong Li, Axel Schambach, Ute Modlich, Olga Kustikova, Melanie Galla, Jürgen Bode, Axel Zander, Christopher Baum

  Human gene therapy. 11/2010; 21(11):1501-3.
• 10.56

  Impact points

  Hematopoiesis and immunity of HOXB4-transduced embryonic stem cell-derived hematopoietic progenitor cells.

  Kun-Ming Chan, Sabrina Bonde, Hannes Klump, Nicholas Zavazava

  Blood. 04/2008; 111(6):2953-61.

  The ability of embryonic stem (ES) cells to form cells and tissues from all 3 germ layers can be exploited to generate cells that can be used to treat diseases. In particular, successful generation of hematopoietic cells from ES cells could provide safer and less immunogenic cells than bone marrow c... [more] The ability of embryonic stem (ES) cells to form cells and tissues from all 3 germ layers can be exploited to generate cells that can be used to treat diseases. In particular, successful generation of hematopoietic cells from ES cells could provide safer and less immunogenic cells than bone marrow cells, which require severe host preconditioning when transplanted across major histocompatibility complex barriers. Here, we exploited the self-renewal properties of ectopically expressed HOXB4, a homeobox transcription factor, to generate hematopoietic progenitor cells (HPCs) that successfully induce high-level mixed chimerism and long-term engraftment in recipient mice. The HPCs partially restored splenic architecture in Rag2(-/-)gamma(c)(-/-)-immunodeficient mice. In addition, HPC-derived newly generated T cells were able to mount a peptide-specific response to lymphocytic choriomeningitis virus and specifically secreted interleukin-2 and interferon-gamma upon CD3 stimulation. In addition, HPC-derived antigen presenting cells in chimeric mice efficiently presented viral antigen to wild-type T cells. These results demonstrate for the first time that leukocytes derived from ES cells ectopically expressing HOXB4 are immunologically functional, opening up new opportunities for the use of ES cell-derived HPCs in the treatment of hematologic and immunologic diseases.

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• 9.43

  Impact points

  HOXB4's road map to stem cell expansion.

  Bernhard Schiedlmeier, Ana Cristina Santos, Ana Ribeiro, Natalia Moncaut, Dietrich Lesinski, Herbert Auer, Karl Kornacker, Wolfram Ostertag, Christopher Baum, Moises Mallo, Hannes Klump

  Proceedings of the National Academy of Sciences of the United States of America. 11/2007; 104(43):16952-7.

  Homeodomain-containing transcription factors are important regulators of stem cell behavior. HOXB4 mediates expansion of adult and embryo-derived hematopoietic stem cells (HSCs) when expressed ectopically. To define the underlying molecular mechanisms, we performed gene expression profiling in combi... [more] Homeodomain-containing transcription factors are important regulators of stem cell behavior. HOXB4 mediates expansion of adult and embryo-derived hematopoietic stem cells (HSCs) when expressed ectopically. To define the underlying molecular mechanisms, we performed gene expression profiling in combination with subsequent functional analysis with enriched adult HSCs and embryonic derivatives expressing inducible HOXB4. Thereby, we identified a set of overlapping genes that likely represent "universal" targets of HOXB4. A substantial number of loci are involved in signaling pathways important for controlling self-renewal, maintenance, and differentiation of stem cells. Functional assays performed on selected pathways confirmed the biological coherence of the array results. HOXB4 activity protected adult HSCs from the detrimental effects mediated by the proinflammatory cytokine TNF-alpha. This protection likely contributes to the competitive repopulation advantage of HOXB4-expressing HSCs observed in vivo. The concept of TNF-alpha inhibition may also prove beneficial for patients undergoing bone marrow transplantation. Furthermore, we demonstrate that HOXB4 activity and FGF signaling are intertwined. HOXB4-mediated expansion of adult and ES cell-derived HSCs was enhanced by specific and complete inhibition of FGF receptors. In contrast, the expanding activity of HOXB4 on hematopoietic progenitors in day 4-6 embryoid bodies was blunted in the presence of basic FGF (FGF2), indicating a dominant negative effect of FGF signaling on the earliest hematopoietic cells. In summary, our results strongly suggest that HOXB4 modulates the response of HSCs to multiple extrinsic signals in a concerted manner, thereby shifting the balance toward stem cell self-renewal.

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• 4.09

  Impact points

  HOXB4 inhibits cell growth in a dose-dependent manner and sensitizes cells towards extrinsic cues.

  Elke Will, Daniel Speidel, Zheng Wang, Gabriel Ghiaur, Andreas Rimek, Bernhard Schiedlmeier, David A Williams, Christopher Baum, Wolfram Ostertag, Hannes Klump

  Cell cycle (Georgetown, Tex.). 02/2006; 5(1):14-22.

  Ectopic expression of the homeodomain transcription factor HOXB4 expands hematopoietic stem and progenitor cells in vivo and in vitro, making HOXB4 a highly interesting candidate for therapeutic stem cell expansion. However, when expressed at high levels, HOXB4 concomitantly perturbs differentiation... [more] Ectopic expression of the homeodomain transcription factor HOXB4 expands hematopoietic stem and progenitor cells in vivo and in vitro, making HOXB4 a highly interesting candidate for therapeutic stem cell expansion. However, when expressed at high levels, HOXB4 concomitantly perturbs differentiation and thus likely predisposes the manipulated cells for leukemogenesis. We therefore asked whether the expression level of HOXB4 may be a critical parameter that influences the growth and transformation properties of transduced cells. Using a set of retroviral vectors which covered a 40-fold range of expression levels, we studied the consequences of HOXB4 expression at different levels in the well established Rat-1 fibroblast cell system. HOXB4 transformed Rat-1 fibroblasts beyond a certain threshold level of expression. Further escalation of HOXB4 expression, however, did not enhance transformation. Instead, HOXB4 mediated a dose dependent anti-proliferative effect on Rat-1 and NIH3T3 fibroblasts. This effect was aggravated under reduced serum concentrations and was, at least partially, due to an enhanced sensitivity of HOXB4 overexpressing cells to induction of apoptosis. Based on these results we propose that HOXB4 affects cell growth in a dose-dependent manner by sensitizing cells towards extrinsic signals.

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• 9.43

  Impact points

  HOXB4 enforces equivalent fates of ES-cell-derived and adult hematopoietic cells.

  Sandra Pilat, Sebastian Carotta, Bernhard Schiedlmeier, Kenji Kamino, Andreas Mairhofer, Elke Will, Ute Modlich, Peter Steinlein, Wolfram Ostertag, Christopher Baum, Hartmut Beug, Hannes Klump

  Proceedings of the National Academy of Sciences of the United States of America. 09/2005; 102(34):12101-6.

  Genetic manipulation of hematopoietic stem and progenitor cells is an important tool for experimental and clinical applied hematology. However, techniques that allow for gene targeting, subsequent in vitro selection, and expansion of genetically defined clones are available only for ES cells. Such m... [more] Genetic manipulation of hematopoietic stem and progenitor cells is an important tool for experimental and clinical applied hematology. However, techniques that allow for gene targeting, subsequent in vitro selection, and expansion of genetically defined clones are available only for ES cells. Such molecularly defined and, hence, "safe" clones would be highly desirable for somatic gene therapy. Here, we demonstrate that in vitro differentiated ES cells completely recapitulate the growth and differentiation properties of adult bone marrow cells, in vitro and in vivo, when ectopically expressing HOXB4. Myeloid development was enforced and (T) lymphoid development suppressed over a wide range of expression levels, whereas only high expression levels of the transcription factor were detrimental for erythroid development. This indicates a close association between the amounts of ectopic HOXB4 present within a progenitor cell and and the decision to self renew or differentiate. Because HOXB4 mediates similar fates of ES-derived and bone marrow hematopoietic stem cells, the primitive embryonic cells can be considered a promising alternative for investigating hematopoietic reconstitution, in vivo, based on well defined clones. Provided that HOXB4 levels are kept within a certain therapeutic window, ES cells also carry the potential of efficient and safe somatic gene therapy.

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• 2.67

  Impact points

  Control of self-renewal and differentiation of hematopoietic stem cells: HOXB4 on the threshold.

  Hannes Klump, Bernhard Schiedlmeier, Christopher Baum

  Annals of the New York Academy of Sciences. 07/2005; 1044:6-15.

  The homeodomain transcription factor HOXB4 is one of the most attractive tools to expand hematopoietic stem cells in vitro and in vivo and to promote the formation of hematopoietic cells from in vitro differentiated embryonic stem cells. However, the expression levels compatible with the favorable e... [more] The homeodomain transcription factor HOXB4 is one of the most attractive tools to expand hematopoietic stem cells in vitro and in vivo and to promote the formation of hematopoietic cells from in vitro differentiated embryonic stem cells. However, the expression levels compatible with the favorable effect of enhanced self-renewal without perturbing differentiation, in vivo, remain to be determined. In this paper, we discuss the necessity to define the "therapeutic width" of HOXB4 expression, based on observations from our lab and others that demonstrate that ectopic HOXB4 expression leads to a concentration-dependent perturbation of lineage differentiation of mouse and human hematopoietic cells. In summary, the combined results argue in favor of the existence of certain threshold levels for HOXB4 activity that control the differentiation and self-renewal behavior of hematopoietic stem and progenitor cells. Indeed, existing evidence suggests that dosage effects of ectopically expressed transcription factors may be more the rule than an exception.

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• 4.75

  Impact points

  Self-inactivating retroviral vectors with improved RNA processing.

  J Kraunus, D H S Schaumann, J Meyer, U Modlich, B Fehse, G Brandenburg, D von Laer, H Klump, A Schambach, J Bohne, C Baum

  Gene therapy. 12/2004; 11(21):1568-78.

  Three RNA features have been identified that elevate retroviral transgene expression: an intron in the 5' untranslated region (5'UTR), the absence of aberrant translational start codons and the presence of the post-transcriptional regulatory element (PRE) of the woodchuck hepatitis virus in ... [more] Three RNA features have been identified that elevate retroviral transgene expression: an intron in the 5' untranslated region (5'UTR), the absence of aberrant translational start codons and the presence of the post-transcriptional regulatory element (PRE) of the woodchuck hepatitis virus in the 3'UTR. To include such elements into self-inactivating (SIN) vectors with potentially improved safety, we excised the strong retroviral promoter from the U3 region of the 3' long terminal repeat (LTR) and inserted it either downstream or upstream of the retroviral RNA packaging signal (Psi). The latter concept is new and allows the use of an intron in the 5'UTR, taking advantage of retroviral splice sites surrounding Psi. Three LTR and four SIN vectors were compared to address the impact of RNA elements on titer, splice regulation and transgene expression. Although titers of SIN vectors were about 20-fold lower than those of their LTR counterparts, inclusion of the PRE allowed production of more than 10(6) infectious units per ml without further vector optimizations. In comparison with state-of-the-art LTR vectors, the intron-containing SIN vectors showed greatly improved splicing. With regard to transgene expression, the intron-containing SIN vectors largely matched or even exceeded the LTR counterparts in all cell types investigated (embryonic carcinoma cells, fibroblasts, primary T cells and hematopoietic progenitor cells).

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• 2.55

  Impact points

  Efficient in vitro transduction of naive murine B cells with lentiviral vectors.

  Max Warncke, Birgit Vogt, Jacqueline Ulrich, Meike Dorothee von Laer, Winfried Beyer, Hannes Klump, Burkhard Micheel, Ahmed Sheriff

  Biochemical and biophysical research communications. 07/2004; 318(3):673-9.

  The aim of this study was to determine the impact of lentiviral transduction on primary murine B cells. Studying B cell activities in vivo or using them for tolerance induction requires that the cells remain unaltered in their biological behavior except for expression of the transgene. As we show he... [more] The aim of this study was to determine the impact of lentiviral transduction on primary murine B cells. Studying B cell activities in vivo or using them for tolerance induction requires that the cells remain unaltered in their biological behavior except for expression of the transgene. As we show here, murine B cells can efficiently be transduced by lentiviral, VSV-G-pseudotyped vectors without the necessity of prior activation. Culture with LPS gave enhanced transduction efficiencies but led to the upregulation of CD86 and proliferation of the cells. Transduction of naive B cells by lentiviral vectors was dependent on multiplicity of infection and did not lead to a concomitant activation. Furthermore, the transduced cells could be used for studies in the NOD mouse system without altering the onset of diabetes. We conclude that lentiviral gene transfer into naive B cells is a powerful tool for manipulation of B cells for therapeutic applications.
• 10.56

  Impact points

  High-level ectopic HOXB4 expression confers a profound in vivo competitive growth advantage on human cord blood CD34+ cells, but impairs lymphomyeloid differentiation.

  Bernhard Schiedlmeier, Hannes Klump, Elke Will, Gökhan Arman-Kalcek, Zhixiong Li, Zheng Wang, Andreas Rimek, Jutta Friel, Christopher Baum, Wolfram Ostertag

  Blood. 03/2003; 101(5):1759-68.

  Ectopic retroviral expression of homeobox B4 (HOXB4) causes an accelerated and enhanced regeneration of murine hematopoietic stem cells (HSCs) and is not known to compromise any program of lineage differentiation. However, HOXB4 expression levels for expansion of human stem cells have still to be es... [more] Ectopic retroviral expression of homeobox B4 (HOXB4) causes an accelerated and enhanced regeneration of murine hematopoietic stem cells (HSCs) and is not known to compromise any program of lineage differentiation. However, HOXB4 expression levels for expansion of human stem cells have still to be established. To test the proposed hypothesis that HOXB4 could become a prime tool for in vivo expansion of genetically modified human HSCs, we retrovirally overexpressed HOXB4 in purified cord blood (CB) CD34+ cells together with green fluorescent protein (GFP) as a reporter protein, and evaluated the impact of ectopic HOXB4 expression on proliferation and differentiation in vitro and in vivo. When injected separately into nonobese diabetic-severe combined immunodeficient (NOD/SCID) mice or in competition with control vector-transduced cells, HOXB4-overexpressing cord blood CD34+ cells had a selective growth advantage in vivo, which resulted in a marked enhancement of the primitive CD34+ subpopulation (P =.01). However, high HOXB4 expression substantially impaired the myeloerythroid differentiation program, and this was reflected in a severe reduction of erythroid and myeloid progenitors in vitro (P <.03) and in vivo (P =.01). Furthermore, HOXB4 overexpression also significantly reduced B-cell output (P <.01). These results show for the first time unwanted side effects of ectopic HOXB4 expression and therefore underscore the need to carefully determine the therapeutic window of HOXB4 expression levels before initializing clinical trials.

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• 7.48

  Impact points

  Unmodified Cre recombinase crosses the membrane.

  Elke Will, Hannes Klump, Nicole Heffner, Maike Schwieger, Bernhard Schiedlmeier, Wolfram Ostertag, Christopher Baum, Carol Stocking

  Nucleic acids research. 07/2002; 30(12):e59.

  Site-specific recombination in genetically modified cells can be achieved by the activity of Cre recombinase from bacteriophage P1. Commonly an expression vector encoding Cre is introduced into cells; however, this can lead to undesired side-effects. Therefore, we tested whether cell-permeable Cre f... [more] Site-specific recombination in genetically modified cells can be achieved by the activity of Cre recombinase from bacteriophage P1. Commonly an expression vector encoding Cre is introduced into cells; however, this can lead to undesired side-effects. Therefore, we tested whether cell-permeable Cre fusion proteins can be directly used for lox-specific recombination in a cell line tailored to shift from red to green fluorescence after loxP-specific recombination. Comparison of purified recombinant Cre proteins with and without a heterologous 'protein transduction domain' surprisingly showed that the unmodified Cre recombinase already possesses an intrinsic ability to cross the membrane border. Addition of purified recombinant Cre enyzme to primary bone marrow cells isolated from transgenic C/EBPalpha(fl/fl) mice also led to excision of the 'floxed' C/EBPalpha gene, thus demonstrating its potential for in vivo applications. We conclude that Cre enyzme itself or its intrinsic membrane-permeating moiety are attractive tools for direct manipulation of mammalian cells.

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• 4.75

  Impact points

  Retroviral vector-mediated expression of HoxB4 in hematopoietic cells using a novel coexpression strategy.

  H Klump, B Schiedlmeier, B Vogt, M Ryan, W Ostertag, C Baum

  Gene therapy. 06/2001; 8(10):811-7.

  Retroviral vector-mediated expression of the homeoboxgene, HoxB4, in hematopoietic cells has been reported to mediate a benign expansion of gene-modified hematopoietic stem and precursor cells in vivo. In the present study, we used a novel coexpression strategy for coordinated expression of HoxB4 al... [more] Retroviral vector-mediated expression of the homeoboxgene, HoxB4, in hematopoietic cells has been reported to mediate a benign expansion of gene-modified hematopoietic stem and precursor cells in vivo. In the present study, we used a novel coexpression strategy for coordinated expression of HoxB4 along with a cytoplasmic protein from a retroviral vector. The novel coexpression strategy, based on cotranslational protein separation mediated by the 2A sequence of foot-and-mouth disease virus (FMDV), allows an indirect quantification of HoxB4 expression levels when inserting a reporter such as the enhanced green fluorescent protein (GFP) in the retroviral vector. Presence of the 2A sequence did not interfere with the correct subcellular localization of HoxB4 (nuclear) and GFP (cytoplasmic), nor with the titer of bicistronic vectors, and mediated functional long-term coexpression (at least 1 year) of GFP and HoxB4 after transplantation of transduced mouse bone marrow cells in mice.

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• 6.24

  Impact points

  CD34 splice variant: an attractive marker for selection of gene-modified cells.

  B Fehse, A Richters, K Putimtseva-Scharf, H Klump, Z Li, W Ostertag, A R Zander, C Baum

  Molecular therapy : the journal of the American Society of Gene Therapy. 06/2000; 1(5 Pt 1):448-56.

  This study presents a promising selection system for gene-modified cells other than human hematopoietic progenitor and endothelial cells based on transgenic expression of human CD34. Three retrovirally transduced variants of CD34 were compared, differing in the length of their cytoplasmic domains. T... [more] This study presents a promising selection system for gene-modified cells other than human hematopoietic progenitor and endothelial cells based on transgenic expression of human CD34. Three retrovirally transduced variants of CD34 were compared, differing in the length of their cytoplasmic domains. These were the full-length transmembrane protein (flCD34), a truncated form (tCD34) that is found as a naturally occurring splice variant and has a partial deletion of the cytoplasmic domain for signal transduction, and an engineered variant which is completely deprived of its cytoplasmic tail (dCD34). All three variants allowed selection of gene-modified cells using commercially available immunoaffinity technology. However, examination by flow cytometry as well as by Southern, Northern, and Western blot revealed that dCD34, as opposed to tCD34, is not stably anchored in the membrane and thus is expressed at low levels on the surface of transduced cells. Therefore, tCD34 was chosen as the more promising candidate for a clinically applicable cell surface marker. We show that gene-modified human primary T lymphocytes expressing tCD34 can be enriched to high purity (>95%) using clinically approved immunoaffinity columns. In addition, we demonstrate the utility of tCD34 for surface marking of murine hematopoietic cells in vivo, including primary T lymphocytes detected 9 weeks after bone marrow transplantation.
• 3.04

  Impact points

  Proteolytically active 2A proteinase of human rhinovirus 2 is toxic for Saccharomyces cerevisiae but does not cleave the homologues of eIF-4 gamma in vivo or in vitro.

  H Klump, H Auer, H D Liebig, E Kuechler, T Skern

  Virology. 07/1996; 220(1):109-18.

  During the replication of rhino- and enteroviruses, the translation initiation factor elF-4 gamma is specifically cleaved by the virally encoded 2 A proteinase. This cleavage has been proposed to lead to the inability of the host cell to translate its own capped mRNA and to stimulate internal initia... [more] During the replication of rhino- and enteroviruses, the translation initiation factor elF-4 gamma is specifically cleaved by the virally encoded 2 A proteinase. This cleavage has been proposed to lead to the inability of the host cell to translate its own capped mRNA and to stimulate internal initiation of protein synthesis from the viral mRNA. However, a direct causal relationship between these effects and 2A proteinase-mediated cleavage of elF-4 gamma has remained difficult to prove, mainly because of the toxicity of the 2A proteinase in mammalian expression systems. As an alternative approach, we placed the cDNA sequences for the human rhinovirus 2 2A proteinase and two mutants defective in proteolytic activity under the control of an inducible yeast Gal1-10 promoter and stably integrated them into the yeast genome. Induction of the wildtype enzyme led to changes in cellular morphology, an inhibition of cell division activity, and finally to cell death. As the yeast homologues of mammalian elF-4 gamma, p150 and p130, were shown to be refractory to cleavage by human rhinovirus 2A proteinase both in vivo and in vitro and the rate of protein synthesis was unaffected, the toxicity of the 2A proteinase toward budding yeast must be due to its interaction with at least one other cellular protein essential for viability.
• 3.04

  Impact points

  2A proteinases of coxsackie- and rhinovirus cleave peptides derived from eIF-4 gamma via a common recognition motif.

  W Sommergruber, H Ahorn, H Klump, J Seipelt, A Zoephel, F Fessl, E Krystek, D Blaas, E Kuechler, H D Liebig

  Virology. 03/1994; 198(2):741-5.

  The cleavage specificities of the 2A proteinases from coxsackievirus B4 (CVB4) and human rhinovirus 2 (HRV2) on oligopeptide substrates have been determined. Comparison of the specificity of CVB4 2A proteinase with that of HRV2 2A proteinase allowed cleavable peptides to be designed using the common... [more] The cleavage specificities of the 2A proteinases from coxsackievirus B4 (CVB4) and human rhinovirus 2 (HRV2) on oligopeptide substrates have been determined. Comparison of the specificity of CVB4 2A proteinase with that of HRV2 2A proteinase allowed cleavable peptides to be designed using the common motif IIe/Leu-X-Thr-X*Gly; little resemblance to the viral cleavage site remained. The data also allowed the prediction of three possible cleavage sites for 2A proteinases on eIF-4 gamma; two peptides derived from these sequences were cleaved by both 2A proteinases. One of these peptides corresponds to the cleavage site for 2A proteinases mapped on eIF-4 gamma [B. J. Lamphear et al. (1993) J. Biol. Chem. 268, 19200-19203]. This supports the hypothesis that cleavage of eIF-4 gamma by picornaviral 2A proteinases occurs directly.
• 5.33

  Impact points

  Mapping the cleavage site in protein synthesis initiation factor eIF-4 gamma of the 2A proteases from human Coxsackievirus and rhinovirus.

  B J Lamphear, R Yan, F Yang, D Waters, H D Liebig, H Klump, E Kuechler, T Skern, R E Rhoads

  The Journal of biological chemistry. 10/1993; 268(26):19200-3.

  The rate-limiting step of eukaryotic protein synthesis is the binding of mRNA to the 40 S ribosomal subunit, a step which is catalyzed by initiation factors of the eIF-4 (eukaryotic initiation factor 4) group: eIF-4A, eIF-4B, eIF-4E, and eIF-4 gamma. Infection of cells with picornaviruses of the rhi... [more] The rate-limiting step of eukaryotic protein synthesis is the binding of mRNA to the 40 S ribosomal subunit, a step which is catalyzed by initiation factors of the eIF-4 (eukaryotic initiation factor 4) group: eIF-4A, eIF-4B, eIF-4E, and eIF-4 gamma. Infection of cells with picornaviruses of the rhino- and enterovirus groups causes a shut-off in translation of cellular mRNAs but permits viral RNA translation to proceed. This change in translational specificity is thought to be mediated by proteolytic cleavage of eIF-4 gamma, which is catalyzed, directly or indirectly, by the picornaviral 2A protease. In this report we have used highly purified recombinant 2A protease from either human Coxsackievirus serotype B4 or rhinovirus serotype 2 to cleave eIF-4 gamma in vitro in the eIF-4 complex purified from rabbit reticulocytes. Neither the rate of cleavage nor fragment sizes were affected by addition of eIF-3. The NH2- and COOH-terminal fragments of eIF-4 gamma were separated by reverse phase HPLC and identified with specific antibodies, and the NH2-terminal sequence of the COOH-terminal fragment was determined by automated Edman degradation. The cleavage site for both proteases is 479GRPALSSR decreases GPPRGGPG494 in rabbit eIF-4 gamma, corresponding to 478GRTTLSTR decreases GPPRGGPG493 in human eIF-4 gamma.
• 3.23

  Impact points

  Purification of two picornaviral 2A proteinases: interaction with eIF-4 gamma and influence on in vitro translation.

  H D Liebig, E Ziegler, R Yan, K Hartmuth, H Klump, H Kowalski, D Blaas, W Sommergruber, L Frasel, B Lamphear

  Biochemistry. 08/1993; 32(29):7581-8.

  A mammalian cell infected with a human rhinovirus or enterovirus has a much reduced capability to translate capped mRNAs (the host cell shutoff), while still allowing translation of uncapped viral RNA. Biochemical and genetic evidence suggests that the viral proteinase 2A induces cleavage of the euk... [more] A mammalian cell infected with a human rhinovirus or enterovirus has a much reduced capability to translate capped mRNAs (the host cell shutoff), while still allowing translation of uncapped viral RNA. Biochemical and genetic evidence suggests that the viral proteinase 2A induces cleavage of the eukaryotic initiation factor (eIF) 4 gamma (also known as p220) component of eIF-4 (formerly called eIF-4F). However, neither the mechanism underlying the specific proteolysis of eIF-4 gamma nor the influence of this cleavage on the translation of capped mRNAs has been clarified. Such studies have been hampered by a lack of large quantities of a purified 2A proteinase. Therefore, the mature proteinases 2A of human rhinovirus 2 and coxsackievirus B4 were expressed in soluble form in Escherichia coli. A four-step purification protocol was developed; 1 mg of highly purified 2A proteinase per gram wet weight of E. coli was obtained. Both enzymes cleaved directly eIF-4 gamma as part of the purified eIF-4 complex. Addition of HRV2 2A proteinase to HeLa cell cytoplasmic translation extracts resulted in eIF-4 gamma cleavage and drastically reduced the translation of capped mRNA; addition of purified eIF-4 restored translation to the initial level. However, translation of a reporter gene driven by the 5'-untranslated region of human rhinovirus 2 was translated 2-3-fold more efficiently in the presence of HRV2 2A proteinase.