TY  - JOUR
A1  - Ryma, Matthias
A1  - Tylek, Tina
A1  - Liebscher, Julia
A1  - Blum, Carina
A1  - Fernandez, Robin
A1  - Böhm, Christoph
A1  - Kastenmüller, Wolfgang
A1  - Gasteiger, Georg
A1  - Groll, Jürgen
T1  - Translation of collagen ultrastructure to biomaterial fabrication for material-independent but highly efficient topographic immunomodulation
JF  - Advanced materials
N2  - Supplement-free induction of cellular differentiation and polarization solely through the topography of materials is an auspicious strategy but has so far significantly lagged behind the efficiency and intensity of media-supplementation-based protocols. Consistent with the idea that 3D structural motifs in the extracellular matrix possess immunomodulatory capacity as part of the natural healing process, it is found in this study that human-monocyte-derived macrophages show a strong M2a-like prohealing polarization when cultured on type I rat-tail collagen fibers but not on collagen I films. Therefore, it is hypothesized that highly aligned nanofibrils also of synthetic polymers, if packed into larger bundles in 3D topographical biomimetic similarity to native collagen I, would induce a localized macrophage polarization. For the automated fabrication of such bundles in a 3D printing manner, the strategy of “melt electrofibrillation” is pioneered by the integration of flow-directed polymer phase separation into melt electrowriting and subsequent selective dissolution of the matrix polymer postprocessing. This process yields nanofiber bundles with a remarkable structural similarity to native collagen I fibers, particularly for medical-grade poly(ε-caprolactone). These biomimetic fibrillar structures indeed induce a pronounced elongation of human-monocyte-derived macrophages and unprecedentedly trigger their M2-like polarization similar in efficacy as interleukin-4 treatment.
KW  - biofabrication
KW  - extracellular matrix
KW  - immunomodulation
KW  - macrophages
KW  - melt electrofibrillation
KW  - melt electrowriting
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-256381
VL  - 33
IS  - 33
ER  - 
TY  - JOUR
A1  - Peters, Annika E.
A1  - Knöpper, Konrad
A1  - Grafen, Anika
A1  - Kastenmüller, Wolfgang
T1  - A multifunctional mouse model to study the role of Samd3
JF  - European Journal of Immunology
N2  - The capacity to develop immunological memory is a hallmark of the adaptive immune system. To investigate the role of Samd3 for cellular immune responses and memory development, we generated a conditional knock-out mouse including a fluorescent reporter and a huDTR cassette for conditional depletion of Samd3-expressing cells. Samd3 expression was observed in NK cells and CD8 T cells, which are known for their specific function against intracellular pathogens like viruses. After acute viral infections, Samd3 expression was enriched within memory precursor cells and the frequency of Samd3-expressing cells increased during the progression into the memory phase. Similarly, during chronic viral infections, Samd3 expression was predominantly detected within precursors of exhausted CD8 T cells that are critical for viral control. At the functional level however, Samd3-deficient CD8 T cells were not compromised in the context of acute infection with Vaccinia virus or chronic infection with Lymphocytic choriomeningitis virus. Taken together, we describe a novel multifunctional mouse model to study the role of Samd3 and Samd3-expressing cells. We found that Samd3 is specifically expressed in NK cells, memory CD8 T cells, and precursor exhausted T cells during viral infections, while the molecular function of this enigmatic gene remains further unresolved.
KW  - viral infection
KW  - CD8 T cell
KW  - mouse model
KW  - NK cell
KW  - SAMD3
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-257362
VL  - 52
IS  - 2
ER  - 
TY  - JOUR
A1  - Wu, Hao
A1  - Zhao, Xiufeng
A1  - Hochrein, Sophia M.
A1  - Eckstein, Miriam
A1  - Gubert, Gabriela F.
A1  - Knöpper, Konrad
A1  - Mansilla, Ana Maria
A1  - Öner, Arman
A1  - Doucet-Ladevèze, Remi
A1  - Schmitz, Werner
A1  - Ghesquière, Bart
A1  - Theurich, Sebastian
A1  - Dudek, Jan
A1  - Gasteiger, Georg
A1  - Zernecke, Alma
A1  - Kobold, Sebastian
A1  - Kastenmüller, Wolfgang
A1  - Vaeth, Martin
T1  - Mitochondrial dysfunction promotes the transition of precursor to terminally exhausted T cells through HIF-1α-mediated glycolytic reprogramming
JF  - Nature Communications
N2  - T cell exhaustion is a hallmark of cancer and persistent infections, marked by inhibitory receptor upregulation, diminished cytokine secretion, and impaired cytolytic activity. Terminally exhausted T cells are steadily replenished by a precursor population (Tpex), but the metabolic principles governing Tpex maintenance and the regulatory circuits that control their exhaustion remain incompletely understood. Using a combination of gene-deficient mice, single-cell transcriptomics, and metabolomic analyses, we show that mitochondrial insufficiency is a cell-intrinsic trigger that initiates the functional exhaustion of T cells. At the molecular level, we find that mitochondrial dysfunction causes redox stress, which inhibits the proteasomal degradation of hypoxia-inducible factor 1α (HIF-1α) and promotes the transcriptional and metabolic reprogramming of Tpex cells into terminally exhausted T cells. Our findings also bear clinical significance, as metabolic engineering of chimeric antigen receptor (CAR) T cells is a promising strategy to enhance the stemness and functionality of Tpex cells for cancer immunotherapy.
KW  - cytotoxic T cells
KW  - infection
KW  - lymphocyte differentiation
KW  - translational research
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-358052
VL  - 14
ER  -