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Query: UMLS:C0018133 (
graft-versus-host disease
)
18,032
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Murine sclerodermatous
graft-versus-host disease
(Scl
GVHD
), produced by transplanting B10.D2 bone marrow and spleen cells to lethally irradiated BALB/cJ mice, is a model for human scleroderma. Mice with Scl
GVHD
have skin thickening, lung fibrosis, cutaneous mononuclear cell infiltration, and upregulation of cutaneous transforming growth factor beta1 (TGF-beta1) and
type I collagen
mRNAs by day 21 after bone marrow transplantation. Elevated TGF-beta1 appears to be the critical cytokine driving fibrosis in Scl
GVHD
, which can be prevented with antibodies to TGF-beta administered early in disease. Here we demonstrate that we can also prevent skin thickening in mice with Scl
GVHD
with a naturally occurring antagonist to TGF-beta1, human latency-associated peptide (LAP). By quantitative real-time PCR analysis and immunostaining, LAP treatment also abrogates the upregulation of cutaneous TGF-beta1 and connective tissue growth factor mRNAs and
type I collagen
synthesis in Scl
GVHD
. In contrast to anti-TGF-beta antibodies, LAP at 4 ng total per mouse has no significant suppressive effect on cutaneous influx of T cells and monocytes or immune cell activation. LAP may be a potential new therapy in scleroderma and other TGF-beta-driven fibrosing disease that targets TGF-beta more specifically, without affecting systemic critical roles of TGF-beta on immune cell function.
...
PMID:Latency-associated peptide prevents skin fibrosis in murine sclerodermatous graft-versus-host disease, a model for human scleroderma. 1463 86
Mesenchymal Stem Cells (MSCs) are non-hematopoietic multi-potent stem-like cells that are capable of differentiating into both mesenchymal and non-mesenchymal lineages. In fact, in addition to bone, cartilage, fat, and myoblasts, it has been demonstrated that MSCs are capable of differentiating into neurons and astrocytes in vitro and in vivo. MSCs are of interest because they are isolated from a small aspirate of bone marrow and can be easily expanded in vitro. As such, these cells are currently being tested for their potential use in cell and gene therapy for a number of human diseases. Nevertheless, there are still some open questions about origin, multipotentiality, and anatomical localization of MSCs. In this review, we discuss clinical trials based on the use of MSCs in cardiovascular diseases, such as treatment of acute myocardial infarction, endstage ischemic heart disease, or prevention of vascular restenosis through stem cell-mediated injury repair. We analyze data from clinical trials for treatment of osteogenesis imperfecta (OI), which is a genetic disease characterized by production of defective
type I collagen
. We describe progress for neurological disease treatment with MSC transplants. We discuss data on amyotrophic lateral sclerosis (ALS) and on lysosomal storage diseases (Hurler syndrome and metachromatic leukodystrophy). A section of review is dedicated to ongoing clinical trials, involving MSCs in treatment of steroid refractory
Graft Versus Host Disease
(
GVHD
); periodontitis, which is a chronic disease affecting periodontium and causing destruction of attachment apparatus, heart failure, and bone fractures. Finally, we will provide information about biotech companies developing MSC therapy.
...
PMID:From the laboratory bench to the patient's bedside: an update on clinical trials with mesenchymal stem cells. 1722 88
The immunosuppressive drug mycophenolate mofetil (MMF) is used to prevent organ rejection after transplantation and has shown some efficacy to prevent the fibrotic complications that occur during autoimmune diseases such as systemic sclerosis or during
graft-versus-host disease
(
GVHD
). We tested the hypothesis that MMF may exert direct effects on fibroblast extracellular matrix remodeling. Incubation of human lung fibroblast cultures with MMF led to dose- and time-dependent reduction in the synthesis and expression of
type I collagen
. Inhibition of COL1A1 and COL1A2 mRNA steady-state levels occurred at the level of transcription via repression of their promoters. In contrast, MMF significantly enhanced the expression and the synthesis of interstitial collagenase (matrix metalloproteinase-1). MMF was also found to diminish the capacity of fibroblast to contract mechanically unloaded collagen lattices and to reduce the synthesis of alpha-smooth muscle actin, a marker of the contractile myofibroblast phenotype. In addition, MMF diminished the fibroblasts motility. In conclusion, we provide novel mechanism by which MMF alters fibroblast functions important for wound healing and implicated in the development of tissue fibrosis, e.g., collagen production, extracellular matrix contraction, and cell migration. Such properties may contribute to the beneficial therapeutic effects of MMF against fibrotic lesions developing in systemic sclerosis or during
GVHD
.
...
PMID:In vitro evidence for a direct antifibrotic role of the immunosuppressive drug mycophenolate mofetil. 1727 76
Secondary osteopenia following allogeneic bone marrow or stem cell transplantation (BMT or HSCT) is a significant source of morbidity in patients. It is believed to be caused by a number of factors related to the myeloablative conditioning and subsequent therapy regimen. We here aimed to investigate whether the allogeneic bone marrow by itself directly impacts on the bone mass of the patient. We thus performed syn- and allogeneic BMT between two inbred mouse strains, which share an identical major histocompatibility complex background yet differ in their bone phenotypes. BMT was well tolerated, yielded survival rates of 97% and allowed for a regular physiological development. However, allogeneic BMT led to a significant reduction of trabecular bone mass that was independent of strain, sex, immunosuppressive medication, complications resulting from
graft versus host disease
, underlying bone phenotype and numbers of osteoclasts. Instead, reduced trabecular bone mass correlated with reduced plasma levels of amino-terminal propeptide of
type I collagen
. Our results suggest that osteopenia following allogeneic BMT is significantly influenced by an impaired osteoblast activity that may stem from a lack of communication between the resident osteoblasts and an allogeneic bone marrow-derived cell type. Elucidating this incompatibility will open new approaches for the therapy of secondary osteopenia.
...
PMID:Allogeneic yet major histocompatibility complex-matched bone marrow transplantation in mice results in an impairment of osteoblasts and a significantly reduced trabecular bone. 2876 38
