Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P00790 (
PGA
)
2,475
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Sixteen commercially available immunoglobulins (Ig) and 5 anti-
Rho
(D) hyperimmune globulins were investigated for immune phagocytosis inhibition (IPI) factors as well as for T, B lymphocytotoxic and monocytotoxic antibodies. All Ig contained IPI factors with lowest inhibitory IgG concentrations ranging from 0.08 to 50 mg/ml.
Pepsin
-digested Ig was noninhibitory. IPI factors in anti-D preparations were uniformly high (inhibitory IgG concentrations 0.6-2.5 mg/ml). Cytotoxic antibodies against T, B lymphocytes and monocytes were found in 2,2 and 7 products, respectively. Since we have recently shown that IPI is caused by antibodies against major histocompatibility complex antigens, most likely HLA, the hypothesis is put forward that IPI factors in Ig are HLA-related, cytotoxic as well as noncytotoxic antibodies which act via Fc receptor blockade of human monocytes.
...
PMID:Immune phagocytosis inhibition by commercial immunoglobulins. 348 81
In tissue engineered heart valves, cell-mediated stress development during culture results in leaflet retraction at time of implantation. This tissue retraction is partly active due to traction forces exerted by the cells and partly passive due to release of residual stress in the extracellular matrix and the cells. Within this study, we unraveled the passive and active contributions of cells and matrix to generated force and retraction in engineered heart valve tissues. Tissue engineered rectangular strips, fabricated from
PGA
/P4HB scaffolds and seeded with human myofibroblasts, were cultured for 4 weeks, after which the cellular contribution was changed at different levels. Elimination of the active cellular traction forces was achieved with Cytochalasin D and inhibition of the
Rho
-associated kinase pathway. Both active and passive cellular contributions were eliminated by lysation and/or decellularization of the tissue. Maximum cell activity was reached by increasing the fetal bovine serum concentration to 50%. The generated force decreased ~20% after elimination of the active cellular component, ~25% when the passive cellular component was removed as well and remained unaffected by increased serum concentrations. Passive retraction accounted for ~60% of total retraction, of which ~15% was residual stress in the matrix and ~45% was passive cell retraction. Cell traction forces accounted for the remainder ~40% of the retraction. Full activation of the cells increased retraction by ~45%. These results illustrate the importance of the cells in the process of tissue retraction, not only actively retracting the tissue, but also in a passive manner to a large extent.
...
PMID:Passive and active contributions to generated force and retraction in heart valve tissue engineering. 2224 54
