Research Group Fackler
Research in my laboratory addresses the cell biology, immunology and pathogenesis of HIV-1 infection. One focus of our studies is on the molecular mechanisms of action by which the HIV-1 pathogenicity factor Nef reprograms host cell vesicular transport, signal transduction and motility. Another emphasis is on the impact of the host innate immune system in HIV infection and on viral evasion mechanisms. This includes dissecting how the intrinsic immunity factor CD317/BST-2/tetherin impairs HIV-1 particle release and how this activity is antagonized by the viral protein Vpu, but also studies to elucidate which barriers prevent productive HIV-1 infection of resting CD4+ T lymphocytes. Finally, we are also addressing cell biology problems related to actin dynamics with a focus on the molecular biology and physiological role of the actin-nucleating diaphanous-related formins (DRFs). In this context we particularly focus on the DRF FHOD1 and its role in cell motility and polarization.
1) Molecular mechanisms of the HIV-1 pathogenicity factor Nef
The Nef protein of HIV and SIV is critical for high virus load and full pathogenicity in the infected host. This pathogenic potential is underscored by a transgenic mouse model in which the expression of Nef alone causes an AIDS-like disease. This activity renders Nef an attractive target for antiviral strategies to complement existing treatment. Nef does not possess detectable enzymatic activity and mediates all its functions via interactions with host cell or other viral proteins. While a multitude of activities have been ascribed to Nef, the biological properties and protein-interactions that govern its pathogenic potential have still not been unambiguously identified. Nef`s activities can be divided into immune evasion functions and effects that directly boost viral spread in the absence of host immune attacks. Both these general Nef activities are achieved by manipulation of host cell signal transduction and intracellular transport processes. Our work focusses on visualizing and dissecting the independent molecular mechanisms employed by which Nef disrupts host cell vesicular transport, actin remodeling, and motility. This increasingly involves the use of complex primary cell culture models and in vivo analyses in mice.
2) The intrinsic immunity factor CD317 and antagonism by HIV-1 Vpu
Mammals have evolved a set of cellular defense mechanisms that, often upon induction by type-I interferons (INF), are capable of inhibiting the replication of viral pathogens. These restriction factors impose particularly effective barriers in the context of cross-species transmission of viruses and are thought to act as “intrinsic” immunity defense in an immunologically naïve host. As an important characteristic of such factors, fine-tuned evolution gave raise to highly species-specific adaptation between host and pathogen. CD317 (also referred to as BST-2/HM1.24/tetherin) represents such a host cell innate immunity factor that potently blocks the release of mature HIV-1 particles but also that of other retroviruses as well as Ebola, Marburg, and Lassa virus from productively infected cells. To circumvent this antiviral defense, viral pathogens acquired antagonists that counteract the replication block imposed by CD317, an activity that is exerted by the protein Vpu in the case of HIV-1. We and others have shown that Vpu alters intracellular transport routes of CD317 to antagonize its antiviral activity and we currently investigate the underlying molecular mechanisms. Additional efforts address evolutionary aspects of CD317 restriction and antagonism.
3) HIV infection of resting CD4+ T lymphocytes
HIV-1 infects CD4+ T lymphocytes and cells of the monocytes/macrophage lineage. In the case of primary human CD4+ T lymphocytes, the permissivity to HIV-1 infection ex vivo depends on the cellular activation state: while activated, proliferating CD4+ T lymphocytes are highly susceptible to infection and support efficient virus replication, resting CD4+ T cells are largely non-permissive for HIV-1 replication but can be infected in vivo and serve as a latent viral reservoir. Since physiologically the vast majority of all CD4+ T lymphocytes are in a resting state, this phenomenon provides one explanation as to why the frequency of productively infected CD4+ T lymphocytes in AIDS patients is very low. In collaboration with Prof. Dr. Oliver T. Keppler (Goethe Universität Frankfurt/Main) we identified the deoxynucleoside triphosphate (dNTP) triphosphohydrolase SAMHD1 (sterile alpha motif (SAM) and histidine/aspartic acid (HD) domain-containing protein 1) as an essential host cell factor for this restriction that can be overcome by the Vpx protein encoded by HIV-2 and SIV (Baldauf, Pan et al., 2012, Nat. Med. 18: 1682-1687). Our current efforts focus on the mechanisms of restriction and antagonism and on the dissection of additional blocks to HIV-1 replication in resting CD4+ T cells.
4) Cellular mechanisms of actin dynamics
The astonishing dynamics of the actin cytoskeleton provides the basis for fundamental processes in mammalian cells such as motility, kinesis, vesicular transport and signal transduction. Celluar actin polymerization depends on the coordinated action of molecular machines that drive formation of actin filaments. Diaphanous-related formins (DRFs) constitute a family of Rho GTPase-regulated proteins that typically stimulate nucleation and/or elongation of linear actin filaments required for structures such as filopodia, lamellipodia and contractile rings. Despite similar domain organization and sequence homology to other formins, the DRF FHOD1 does not nucleate or elongate actin filaments, but rather bundles them. The goal of our research is to define physiological roles and regulation of FHOD1. In collaboration with Prof. Gregg Gundersen (Columbia University New York) we recently identified FHOD1 as an essential component of the actin-based machinery that drives movement of the cell nucleus and positions the centrosome in migrating fibroblasts (Kutscheidt et al., 2014, Nat. Cell Biol. 16: 708-715). Our current studies focus on dissecting the mechanisms underlying this phenomenon.
Gabel, M., Hohl, T., Imle, A., Fackler, O.T., Graw, F. (2019). FAMoS: A Flexible and dynamic Algorithm for Model Selection to analyse complex systems dynamics. PLoS Comput Biol. 16;15:e1007230.
Braun E, Hotter D, Koepke L, Zech F, Groß R, Sparrer KMJ, Müller JA, Pfaller CK, Heusinger E, Wombacher R, Sutter K, Dittmer U, Winkler M, Simmons G, Jakobsen MR, Conzelmann KK, Pöhlmann S, Münch J, Fackler OT, Kirchhoff F, Sauter D.(2019). Guanylate-Binding Proteins 2 and 5 Exert Broad Antiviral Activity by Inhibiting Furin-Mediated Processing of Viral Envelope Proteins. Cell Rep. 14;27:2092-2104.e10.
Imle, A., Kumberger, P., Schnellbächer, N.D., Fehr, J., Carrillo-Bustamante, P., Ales, J., Schmidt, P., Ritter, C, Godinez, W.J., Müller, B., Rohr, K., Hamprecht, F.A., Schwarz, U.S., Graw, F., Fackler, O.T. (2019). Experimental and computational analyses reveal that environmental restrictions shape HIV-1 spread in 3D cultures. Nat Commun., 13;10:2144.
Tsopoulidis, N., Kaw, S., Laketa, V., Kutscheidt, S., Baarlink, C., Stolp, B., Grosse, R., Fackler, O.T. (2019). T cell receptor-triggered nuclear actin network formation drives CD4+ T cell effector functions. Sci Immunol. 4;4(31).
de Sousa-Pereira, P., Abrantes, J., Bauernfried, S., Pierini, V., Esteves, P.J., Keppler, O.T., Pizzato, M., Hornung, V., Fackler, O.T., Baldauf, H.M. (2019). The antiviral activity of rodent and lagomorph SERINC3 and SERINC5 is counteracted by known viral antagonists. J Gen Virol. 100:278-288.
Lamas-Murua, M., Stolp, B., Kaw, S., Thoma, J., Tsopoulidis, N., Trautz, B., Ambiel, I., Reif, T., Arora, S., Imle, A., Tibroni, N., Wu, J., Cui, G., Stein, J.V., Tanaka, M., Lyck, R. and Fackler, O.T. (2018). HIV-1 Nef Disrupts CD4+ T Lymphocyte Polarity, Extravasation and Homing to Lymph Nodes via its Nef-Associated Kinase Complex Interface. J. Immunol., 201:2731-2743.
Kmiec, D., Akbil, B., Ananth, S., Hotter, D., Sparrer, K.M.J., Stürzel, C.M., Trautz, B., Ayouba, A., Peeters, M., Yao, Z., Stagljar, I., Passos, V., Zillinger, T., Goffinet, C., Sauter, D., Fackler, O.T., Kirchhoff, F. (2018). SIVcol Nef counteracts SERINC5 by promoting ist proteasomal degradation but does not efficiently enhance HIV-1 replication in human CD4+ T cells and lymphoid tissue. PLoS Pathog. 20;14:e1007269.
Chase, A.J., Wombacher, R. and Fackler, O.T. (2018). Intrinsic properties and plasma membrane trafficking route of Src family kinase SH4 domains sensitive to retargeting by HIV-1 Nef. J. Biol. Chem., 293:7824-7840.
Muthinja, J.M., Ripp, J., Krüger, T., Imle, A., Haraszti, T., Fackler, O.T., Spatz, J.P., Engstler, M., Frischknecht, F. (2018). Tailored environments to study motile cells and pathogens. Cell Microbiol. 20(3).
Trautz, B., Wiedemann, H., Lüchtenborg, C., Pierini, V., Kranich, J., Glass, B., Kräusslich, H.G., Brocker, T., Pizzato, M., Ruggieri, R., Brügger, B. and Fackler, O.T. (2017). SERINC5 restricts HIV-1 infectivity without altering the lipid composition and organization of viral particles. J Biol Chem., 18;292:13702-13713.
Baldauf, H.M., Stegmann, L., Schwarz, S.M., Ambiel, I., Trotard, M., Martin, M., Burggraf, M., Lenzi, G.M., Lejk, H., Pan, X., Fregoso, O.i., Lim, E.S., Abraham, L., Nguyen, L., Rutsch, F., König., R., Kim., B., Emerman, M., Fackler, O.T. * and Keppler, O.T. * (2017). Vpx overcomes a SAMHD1-independent block to HIV reverse transcription that is specific to resting CD4 T cells. Proc. Natl. Acad. Sci. USA, 114: 2729-2734. (* corresponding authors).
Imle, A., Stolp, B., Böhmer, V., Geyer, M., Raz, E. and Fackler, O.T. (2016). D186/D190 is an Allele-dependent Determinant of HIV-1 Nef Function. Virology, 498: 44-56.
Trautz, B., Pierini, V., Wombacher, R., Stolp, B., Chase, A.J., Pizzato, M. and Fackler, O.T. (2016). The Antagonism of HIV-1 Nef to SERINC5 Particle Infectivity Restriction Involves the Counteraction of Virion-Associated Pools of the Restriction Factor. J. Virol., 90:10915-10927.
Pujol, F.M., Laketa, V., Schmidt, F., Mukenhirn, M., Müller, B., Boulant, S., Grimm, D., Keppler, O.T. and Fackler, O.T. (2016). HIV-1 Vpu Antagonizes CD317/tetherin by Adaptor protein-1-Mediated Exclusion from Virus Assembly Sites. J. Virol., 90:6709-6723.
Galaski, J., Ahmad, F., Tibroni, N., Pujol, F.M., Müller, B., Schmidt, R.E., Fackler, O.T. (2015). Cell Surface Downregulation of NK Cell Ligands by Patient-derived HIV-1 VPU and Nef Alleles. J. AIDS, 72:1-10.
Trotard, M., Tsopoulidis, N., Tibroni, N., Willemsen, J., Binder, M., Ruggieri, A., Fackler, OT. (2015). Sensing of HIV-1 Infection in Tzm-bl Cells with Reconstituted Expression of STING. J Virol. , 90: 2064- 2076.
Fackler, O.T. (2015). Spotlight on HIV-1 Nef: SERINC3 and SERINC5 identified as restriction factors antagonized by the pathogenesis factor. Viruses, 7: 6730 - 6738.
Imle, A., Abraham, L., Tsopoulidis, N., Hoflack, B., Saksela, K. and Fackler, O.T. (2015). Association with PAK2 Enables Functional Interactions of Lentiviral Nef Proteins with Exocyst. mBio, 6: e01309-15.
Wang, Y., Arjonen, A., Pouwels, J., Ta, H., Pausch, P., Bange, G., Engel, U., Pan, X., Fackler, O.T., Ivaska, J., Grosse, R. (2015). Formin-like 2 Promotes β1-Integrin Trafficking and Invasive Motility Downstream of PKCα. Dev Cell., 34:475-83.
Schmidt, S., Schenkova, K., Adam, T., Erikson, E., Lehmann-Koch, J., Sertel, S., Verhasselt, B., Fackler, O.T., Lasitschka, F., Keppler, O.T.(2015). SAMHD1´s protein expression profile in humans.J Leukoc Biol., 98:5-14.
Vérollet, C., Souriant, S., Bonnaud, E., Jolicoeur, P., Raynaud-Messina, B., Kinnaer, C., Fourquaux, I., Imle, A., Benichou, S., Fackler, O.T., Poincloux, R., Maridonneau-Parini, I. (2015). HIV-1 reprograms the migration of macrophages. Blood, 125:1611-22.
Kluge, S.F., Mack, K., Iyer, S.S., Pujol, F.M., Heigele, A., Learn, G.H., Usmani, S.H., Sauter, D., Joas, S., Hotter, D., Bibollet-Ruche, F., Plenderleith, L.J., Peeters, M., Geyer, M., Sharp, P.M., Fackler, O.T., Hahn, B.H. and Kirchhoff, F. (2014). Nef proteins of epidemic HIV-1 group O strains antagonize human tetherin. Cell Host Microbe, 5: 639–650.
Haller, C., Müller, B., Fritz, J.V., Lamas-Murua, M., Stolp, B., Pujol, F., Keppler, O.T. and Fackler, O.T. (2014). HIV-1 Nef and Vpu are Functionally Redundant Broad-Spectrum Modulators of Cell Surface Receptors Including Tetraspanins. J. Virol., 88: 14241-14257.
Fackler, O.T. *, Murooka, T.T., Imle, A. and Mempel, T.R.*(2014) Adding new dimensions: Towards an integrative understanding of HIV-1 spread. (* corresponding authors). Nat. Rev. Microbiol., 12:563-574.
Kutscheidt, S+., Zhu, R. +, Antoku, S. +, Luxton, G.G.W., Stagljar, I., Fackler, O.T. * and Gundersen, G. * (2014). FHOD1 interaction with nesprin-2G mediates TAN line formation and nuclear movement (+ first authors, * corresponding authors). Nat. Cell Biol. 16: 708-715.
Geist, M.M., Pan, X., Bender, S., Bartenschlager, R., Nickel, W and Fackler, O.T. (2014). Heterologous Src Homology 4 Domains Support Membrane Anchoring and Biological Activity of HIV-1 Nef. J. Biol. Chem. 289:14030-44.
Fackler, O.T. and Keppler, O.T. (2013). MxB/Mx2: The latest piece in HIV’s interferon puzzle. Embo Rep. 14: 1030 – 1031.
Pan, X., Baldauf, H.M., Keppler, O.T. and Fackler, O.T. (2013). Restrictions to HIV-1 Replication in Resting CD4+ T Lymphocytes. Cell Research, 23: 876-885.
Pan, X., Geist, M., Rudolph, J.M., Nickel, W. and Fackler, O.T. (2013). HIV-1 Nef Disrupts Membrane-Microdomain-associated Anterograde Transport for Plasma Membrane Delivery of Selected Src Family Kinases. Cell. Microbiol., 15:1605-1621.
Baldauf, H-M.+, Pan, X.+, Erikson, E., Schmidt, S., Daddacha, W., Burggraf, M., Schenkova, K., Ambiel, I., Wabnitz G., Gramberg, T., Panitz, S., Flory, E., Landau, N.R., Sertel, S., Rutsch, F., Lasitschka, F., Kim, B., König, R., Fackler, O.T.* and Keppler, O.T.* (2012). The deoxynucleoside triphosphate triphosphohydrolase SAMHD1 restricts HIV-1 infection in resting CD4+ T cells. Nat. Med., 18: 1682-1687 (* corresponding authors, + first authors).
Stolp, B., Imle, A., Coelho, F.M., Hons, M., Mendiz, R.G., Lyck, R., Stein, J.V. and Fackler, O.T. (2012). HIV-1 Nef Interferes With T Lymphocyte Circulation Through Confined Environments in vivo. Proc. Natl. Acad. Sci. USA, 109: 18541–18546.
Abraham, L. and Fackler, O.T. (2012). HIV-1 Nef: a multifaceted modulator of TCR signaling. Cell Communication and Signaling, 10:39.
Götz, N., Sauter, D., Usmani, S.M., Fritz, J.V., Goffinet, C., Heigele, A., Geyer, M., Bibollet-Ruche, F., Learn, G.H., Fackler, O.T., Hahn, B.H. and Kirchhoff, F. (2012). Reacquisition of Nef-Mediated Tetherin Antagonism in a Single In Vivo Passage of HIV-1 Through Its Original Chimpanzee Host. Cell Host Microbe, 12: 373-380.
Abraham, A., Bankhead, P., Pan, X., Engel, U. and Fackler, O.T. (2012). HIV-1 Nef Limits Communication Between LAT and SLP-76 to Reduce Formation of SLP-76 Signaling Microclusters Following TCR Stimulation. J. Immunol., 189: 1898–1910.
Fritz, J.V., Tibroni, N., Keppler, O.T. and Fackler, O.T. (2012). Membrane Microdomain Association of HIV-1 Vpu is Dispensable for Counteracting the Particle Release Restriction Imposed by CD317/BST-2/Tetherin. Virology, 424: 33–44.
Pan, X., Rudolph, J.M., Abraham, L., Habermann, A., Haller,C., Krijnse-Locker, J. and Fackler, O.T. (2012). HIV-1 Nef Compensates Disorganization of the Immunological Synapse by Assembly of an Intracellular Lck Signalosome. Blood; 119: 786-797.
Stastna, J., Pan, X.Y., Wang, H., Kollmannsperger, A., Kutscheid, S., Lohmann, V., Grosse, R. and Fackler, O.T. (2012). Differing and isoform specific roles for the formin DIAPH3 in plasma membrane blebbing and filopodia formation. Cell Research, 22: 728–745.
Schmidt, S., Fritz, J.V., Bitzegeio, J., Fackler, O.T. *, and Keppler, O.T*. (2011). HIV-1 Vpu Blocks Recycling and Biosynthetic Transport of the Intrinsic Immunity Factor CD317/Tetherin to Overcome the Virion Release Restriction. (* corresponding authors). mBio, 2: e00036-11.
Stolp, B. and Fackler, O.T. (2011). How HIV takes advantage of the cytoskeleton in entry and replication. Viruses, 3: 293-311.
Tervo, H.M., Homann, S., Ambiel, I., Fritz, J.V., Fackler, O.T. * and Keppler, O.T. * (2011). ß-TrCP is Dispensable for Vpu’s Ability to overcome the CD317/Tetherin-imposed restriction to HIV-1 release. (* corresponding authors). Retrovirology, 8:9.
Goffinet, C., Homann, S., Ambiel, I., Tibroni, N., Rupp, D., Keppler O.T. and Fackler, O.T. (2010). Antagonism of CD317 restriction of HIV-1 particle release and depletion of CD317 are separable activities of HIV-1 Vpu. J. Virol., 84: 4089-4094.
Stolp, B., Abraham, L., Rudolph, J.M. and Fackler, O.T. (2010). Lentiviral Nef Proteins Utilize PAK2-mediated Deregulation of Cofilin as a General Strategy to Interfere with Actin Remodeling. J. Virol., 84: 3935-3948.
Rudolph, J.M.; Eickel, N., Haller, C., Schindler, M. and Fackler, O.T. (2009). Inhibition of T cell receptor induced actin remodeling and relocalization of Lck are evolutionarily conserved activities of lentiviral Nef proteins. J. Virol., 83: 11528-11539.
Stolp, B., Raichman-Fried, M., Abraham. L., Pan, X., Giese, S.I., Hannemann, S., Goulimari, P., Raz, E., Grosse, R. and Fackler, O.T. (2009). HIV-1 Nef interferes with host cell motility by deregulation of cofilin. Cell Host and Microbe 6:174-186
Goffinet, C., Allespach, A, Homann, S., Tervo, H-M., Habermann, A., Rupp, D., Oberbremer, L., Kern, C., Tibroni, N., Welsch, S., Krijnse-Locker, J., Banting, G., Kräusslich, H.G., Fackler, O.T. and Keppler, O.T. (2009). HIV-1 Antagonism of CD317 is Species-Specific and Involves Vpu-Mediated Proteasomal Degradation of the Restriction Factor. Cell Host and Microbe, 5: 285-297.
Homann, S., Tibroni, N., Baumann, I., Sertel, S., Keppler, O.T. and Fackler, O.T. (2009). Determinants in HIV-1 Nef for enhancement of viral replication and depletion of CD4+ T-lymphocytes in human lymphoid tissue ex vivo. Retrovirology, 6: 6.
Hannemann, S., Madrid, R., Stastna, J., Kitzing, T., Gasteier, J., Schönichen, A., Bouchet, J., Jimenez, A., Geyer, M., Grosse, R., Benichou, S. and Fackler, O.T. The Diaphanous Related Formin FHOD1 Associates with ROCK1 and Promotes Src-dependent Plasma Membrane Blebbing. J. Biol. Chem., 283: 27891-27903.
Haller, C. and Fackler, O.T. (2008). HIV-1 at the immunological and T lymphocytic virological synapse. Biol. Chem., 389: 1253-1260
Fackler, O.T. and Grosse, R. (2008). Cell motility through plasma membrane blebbing. J. Cell Biol. 181: 879
Rauch, S., Pulkkinen, K., Saksela, K., and Fackler, O.T. (2008). HIV-1 Nef Recruits the Guanine Exchange Factor Vav1 via an Unexpected Interface into Plasma Membrane Microdomains for Association with Pak2 Activity. J. Virol., 82: 2918-2929.
Tournaviti, S., Hannemann, S., Terjung, S., Kitzing, T.M., Stegmayer, C., Ritzerfeld, J., Walther, P., Grosse, R., Nickel, W. and Fackler, O.T. (2007). SH4 Domain-induced Plasma Membrane Dynamization Promotes bleb-associated Cell Motility. J. Cell Sci. 120: 3820-3829.
Brügger, B., Krautkrämer, E., Tibroni, N., Munte, C.E., Rauch, S., Leibrecht, I., Glass, B., Breuer, S., Geyer, M., Kräusslich, H.G., Kalbitzer, H.R., Wieland, F.T. and Fackler, O.T. (2007). Human Immunodeficiency Virus Type 1 Nef Protein Modulates the Lipid Composition of Virions and Host Cell Membrane Microdomains. Retrovirology, 4: 70.
Fackler, O.T.*, Alcover, A. and Schwartz, O.* (2007). Modulation of the Immunological Synapse: A key to HIV-1 pathogenesis? (* corresponding authors). Nat. Rev. Immunol. 7: 310-317.
Haller, C., Rauch, S., Michel, N., Hannemann, S., Keppler, O.T. and Fackler, O.T. (2006). The HIV-1 pathogenicity factor Nef interferes with maturation of stimulatory T-lymphocyte contacts by modulation of N-Wasp activity. J. Biol. Chem. 281: 19618-19630.
Fackler, O.T.*, Moris, A., Tibroni, N., Giese, S.I., Glass, B., Schwartz, O. and Kräusslich, H.G. (2006). Functional characterization of HIV-1 Nef mutants in the context of viral infection. (* corresponding author). Virology 351: 332-339.
Gasteier J.E., Madrid R., Krautkrämer E., Schröder S., Muranyi W., Benichou S. and Fackler O.T. (2003). Activation of the Rac interaction partner formin homology 2 domain containing 1 (FHOD1) induces actin stress fibers via a ROCK dependent mechanism. J. Biol. Chem. 278: 38902-38912.
Fackler O.T. and Baur A.S. (2002). Live and let die: Functions of Nef beyond HIV replication. Immunity 16: 493-497.
Geyer M., Fackler O.T., and Peterlin B.M. (2001). Structure-Function Relationship in HIV-1 Nef. EMBO Rep. 2: 580-585.
Fackler O.T., Luo W., Geyer M., Alberts A.S. and Peterlin B.M. (1999). Activation of Vav by Nef induces cytoskeletal rearrangements and downstream effector functions. Mol. Cell 3: 729-739.
Oliver T. Fackler, Ph.D., Prof.
Claudia Haller, Ph.D., project coordinator
Birthe Trautz, Ph.D., project coordinator
Ina Ambiel, research associate
Swetha Ananth, Ph.D. student
Wioleta Chmielewicz, Ph.D. student
Virginia Pierini, Ph.D. student
Tatjana Reif, Ph.D. student
Lopamudra Sadhu, Ph.D. student
Samy Sid Ahmed, Ph.D. student
Bettina Stolp, Ph.D., postdoc
Nadine Tibroni, research associate
Rebecka Wombacher, Ph.D. student
Former lab members:
Libin Abraham (postdoc, University of British Colombia, Vancouver)
Amanda Chase (Grant Writer and Project Manager, Stanford University)
Johanna Galaski (Praktisches Jahr)
Judith Gasteier (technical leader, Abbot)
Miriam Geist (Sanofi, Frankfurt)
Sebastian Hannemann (postdoc, Yale University)
Stefanie Homann (postdoc, University of California, San Diego)
Andrea Imle (postdoc, EMBL, Heidelberg)
Stefan Kutscheidt (Team Leader Quality Control, AGC Biologics, Heidelberg)
Ellen Krautkrämer (postdoc, University Hospital Heidelberg)
Miguel Lamas (remote site monitor, PPD, Karlsruhe)
Joelle Fritz (postdoc, University of Luxembourg)
Benedikt Obermaier (medical student)
Xiao-Yu Pan (senior scientist, manager, Boehringer Ingelheim, Shanghai)
Francois Pujol (Becton Dickinson, Switzerland)
Susanne Rauch (CureVac GmbH; postdoc, King's College, London)
Jochen Rudolph (Miltenyi, quality manager)
Maud Trotard (ThermoFisher, Darmstadt)
Nikolaos Tsopoulidis (Postdoc, Boston)
Ilka Wörz (scientific coordinator, University Hospital Heidelberg)