Your search keyword '"Bucher, Christian H."' showing total 6 results

1. COMMBINI: an experimentally-informed COmputational Model of Macrophage dynamics in the Bone INjury Immunoresponse

Author

Borgiani, Edoardo, primary, Nasello, Gabriele, additional, Ory, Liesbeth, additional, Herpelinck, Tim, additional, Groeneveldt, Lisanne, additional, Bucher, Christian H., additional, Schmidt-Bleek, Katharina, additional, and Geris, Liesbet, additional

Published

2023

2. Individual Effector/Regulator T Cell Ratios Impact Bone Regeneration

Author

Schlundt, Claudia, Reinke, Simon, Geissler, Sven, Bucher, Christian H., Giannini, Carolin, Märdian, Sven, Dahne, Michael, Kleber, Christian, Samans, Björn, Baron, Udo, Duda, Georg N., Volk, Hans-Dieter, and Schmidt-Bleek, Katharina

Subjects

Male, Bone Regeneration, mouse model, Immunology, chemical and pharmacologic phenomena, CD8-Positive T-Lymphocytes, T-Lymphocytes, Regulatory, Bone and Bones, regulatory T (Treg) cell, Immunomodulation, Fractures, Bone, Mice, effector T cell, Animals, Humans, Lymphocyte Count, Original Research, Bone Development, Middle Aged, Adoptive Transfer, Mice, Inbred C57BL, regeneration, Female, Immunotherapy, bone healing, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit, Biomarkers

Abstract

There is increasing evidence that T lymphocytes play a key role in controlling endogenous regeneration. Regeneration appears to be impaired in case of local accumulation of CD8+ effector T cells (TEFF), impairing endogenous regeneration by increasing a primary "useful" inflammation toward a damaging level. Thus, rescuing regeneration by regulating the heightened pro-inflammatory reaction employing regulatory CD4+ T (TReg) cells could represent an immunomodulatory option to enhance healing. Hypothesis was that CD4+ TReg might counteract undesired effects of CD8+ TEFF. Using adoptive TReg transfer, bone healing was consistently improved in mice possessing an inexperienced immune system with low amounts of CD8+ TEFF. In contrast, mice with an experienced immune system (high amounts of CD8+ TEFF) showed heterogeneous bone repair with regeneration being dependent upon the individual TEFF/TReg ratio. Thus, the healing outcome can only be improved by an adoptive TReg therapy, if an unfavorable TEFF/TReg ratio can be reshaped; if the individual CD8+ TEFF percentage, which is dependent on the individual immune experience can be changed toward a favorable ratio by the TReg transfer. Remarkably, also in patients with impaired fracture healing the TEFF/TReg ratio was higher compared to uneventful healers, validating our finding in the mouse osteotomy model. Our data demonstrate for the first time the key-role of a balanced TEFF/TReg response following injury needed to reach successful regeneration using bone as a model system. Considering this strategy, novel opportunities for immunotherapy in patients, which are at risk for impaired healing by targeting TEFF cells and supporting TReg cells to enhance healing are possible.

Published

2019

3. Experience in the Adaptive Immunity Impacts Bone Homeostasis, Remodeling, and Healing

Author

Bucher, Christian H., Schlundt, Claudia, Wulsten, Dag, Sass, F. Andrea, Wendler, Sebastian, Ellinghaus, Agnes, Thiele, Tobias, Seemann, Ricarda, Willie, Bettina M., Volk, Hans-Dieter, Duda, Georg N., and Schmidt-Bleek, Katharina

Subjects

Bone Regeneration, Immunology, T cells, chemical and pharmacologic phenomena, Adaptive Immunity, Bone and Bones, Mice, Osteogenesis, Animals, Homeostasis, Humans, Original Research, Mechanical Phenomena, osteoimmunology, immune experience, Wound Healing, Cell Differentiation, X-Ray Microtomography, biochemical phenomena, metabolism, and nutrition, inflamm-aging, regeneration, biological aging, bacteria, Cytokines, Female, Bone Remodeling, bone healing, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit, Biomarkers, Signal Transduction

Abstract

Bone formation as well as bone healing capacity is known to be impaired in the elderly. Although bone formation is outpaced by bone resorption in aged individuals, we hereby present a novel path that considerably impacts bone formation and architecture: Bone formation is substantially reduced in aged individual owing to the experience of the adaptive immunity. Thus, immune-aging in addition to chronological aging is a potential risk factor, with an experienced immune system being recognized as more pro-inflammatory. The role of the aging immune system on bone homeostasis and on the bone healing cascade has so far not been considered. Within this study mice at different age and immunological experience were analyzed toward bone properties. Healing was assessed by introducing an osteotomy, immune cells were adoptively transferred to disclose the difference in biological vs. chronological aging. In vitro studies were employed to test the interaction of immune cell products (cytokines) on cells of the musculoskeletal system. In metaphyseal bone, immune-aging affects bone homeostasis by impacting bone formation capacity and thereby influencing mass and microstructure of bone trabeculae leading to an overall reduced mechanical competence as found in bone torsional testing. Furthermore, bone formation is also impacted during bone regeneration in terms of a diminished healing capacity observed in young animals who have an experienced human immune system. We show the impact of an experienced immune system compared to a naive immune system, demonstrating the substantial differences in the healing capacity and bone homeostasis due to the immune composition. We further showed that in vivo mechanical stimulation changed the immune system phenotype in young mice toward a more naive composition. While this rescue was found to be significant in young individuals, aged mice only showed a trend toward the reconstitution of a more naive immune phenotype. Considering the immune system's experience level in an individual, will likely allow one to differentiate (stratify) and treat (immune-modulate) patients more effectively. This work illustrates the relevance of including immune diagnostics when discussing immunomodulatory therapeutic strategies for the progressively aging population of the industrial countries.

Published

2019

4. Immune Modulation to Enhance Bone Healing—A New Concept to Induce Bone Using Prostacyclin to Locally Modulate Immunity

Author

Wendler, Sebastian, primary, Schlundt, Claudia, additional, Bucher, Christian H., additional, Birkigt, Jan, additional, Schipp, Christian J., additional, Volk, Hans-Dieter, additional, Duda, Georg N., additional, and Schmidt-Bleek, Katharina, additional

Published

2019

5. T Lymphocytes Influence the Mineralization Process of Bone

Author

El Khassawna, Thaqif, primary, Serra, Alessandro, additional, Bucher, Christian H., additional, Petersen, Ansgar, additional, Schlundt, Claudia, additional, Könnecke, Ireen, additional, Malhan, Deeksha, additional, Wendler, Sebastian, additional, Schell, Hanna, additional, Volk, Hans-Dieter, additional, Schmidt-Bleek, Katharina, additional, and Duda, Georg N., additional

Published

2017

6. T lymphocytes influence the Mineralization Process of Bone.

Author

Khassawna, Thaqif El, Serra, Alessandro, Bucher, Christian H., Petersen, Ansgar, Schlundt, Claudia, Könnecke, Ireen, Malhan, Deeksha, Wendler, Sebastian, Schell, Hanna, Volk, Hans-Dieter, Schmidt-Bleek, Katharina, and Duda, Georg N.

Subjects

MONONUCLEAR leukocytes, LYMPHOCYTES, BIOMINERALIZATION

Abstract

Bone is a unique organ able to regenerate itself after injuries. This regeneration requires the local interplay between different biological systems such as inflammation and matrix formation. Structural reconstitution is initiated by an inflammatory response orchestrated by the host immune system. However, the individual role of T cells and B cells in regeneration and their relationship to bone tissue reconstitution remain unknown. Comparing bone and fracture healing in animals with and without mature T and B cells revealed the essential role of these immune cells in determining the tissue mineralization and thus the bone quality. Bone without mature T and B cells is stiffer when compared to wild-type bone thus lacking the elasticity that helps to absorb forces, thus preventing fractures. In-depth analysis showed dysregulations in collagen deposition and osteoblast distribution upon lack of mature T and B cells. These changes in matrix deposition have been correlated with T cells rather than B cells within this study. This work presents, for the first time, a direct link between immune cells and matrix formation during bone healing after fracture. It illustrates specifically the role of T cells in the collagen organization process and the lack thereof in the absence of T cells. [ABSTRACT FROM AUTHOR]

Published

2017