Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.22.6 (chymopapain)
 407 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In an accompanying manuscript, it was shown that the cartilage chondrolytic activities of fibronectin fragments (Fn-f), which are mediated through catabolic cytokines such as TNF-alpha, IL-1 and IL-6, could be suppressed by anti-oxidants (AOs). The AOs neutralized reactive oxygen species (ROS) which are known to mediate catabolic cytokine action. The objective in this work was to test whether AOs would promote restoration of proteoglycan (PG) in Fn-f treated cartilage, since under normal culturing conditions, PG is not restored after removal of the Fn-f. Cartilage was first cultured with an amino-terminal 29-kDa Fn-f to cause loss of about half of the total PG and then treated with NAC (1 and 10 mM) or glutathione (10 microM) or DMSO (0.1 or 1%). Treatment with NAC and glutathione maximally caused restoration of PG within 14 days to normal or supernormal levels, while DMSO was less effective. Catalase, but not superoxide dismutase, enhanced PG content to a small but significant extent. The restoration of PG in Fn-f treated cartilage occurred throughout the full depth of the cartilage slices as shown by histochemical analysis. However, removal of the AO allowed a subsequent decrease in PG content suggesting that the AOs had not blocked cytokine expression but had merely suppressed cytokine activities. Addition of NAC to IL-1 treated cartilage promoted a restoration of PG, while addition to chymopapain or trypsin treated cartilage was not very effective, suggesting that the effect of AOs requires a cytokine driven damage system. We conclude that the AOs promote a restoration of PG in the Fn-f treated cartilage by suppressing the effects of catabolic cytokines. The data suggest a potential for AOs in reversing tissue damage caused by cytokines.
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PMID:Fibronectin fragment mediated cartilage chondrolysis. II. Reparative effects of anti-oxidants. 895 Feb

Hematopoietic CD34+ cells from placental and umbilical cord blood (PUCB) can be valuable vehicles for gene therapy of immunodeficiencies and genetic disorders. We have conducted preclinical studies towards the treatment of HIV-1-infected infants with genetically 'immunized' CD34+ cells derived from PUCB using anti-HIV-1 hairpin ribozyme genes. PUCB was collected from 10 newborns of HIV-1-positive mothers. CD34+ cells were enriched with a modified procedure using Dynal immunomagnetic beads and chymopapain, stimulated with stem cell factor (SCF), IL-3 and IL-6, and transduced using cell-free recombinant retroviral vector (MJT) expressing a ribozyme against the U5 region of HIV-1. No significant differences were observed in the growth pattern of CD34+ cells from normal infants, HIV-1 exposed infants or infants confirmed to be infected by HIV-1. The transduction efficiency of the CD34+ cells from all the infants was also comparable. MJT-transduced CD34+ cells from an HIV-1-infected infant were maintained in a liquid culture system for 4 weeks, and the progeny macrophage cells were challenged with the monocyte-tropic laboratory strain, HIV-Bal, or the HIV-1 isolate from the infant's mother. Significant inhibition of virus replication was observed in ribozyme-transduced cells. Thus, we have demonstrated efficient and stable gene transfer into progenitor cells from the cord blood of HIV-1-exposed or -infected infants and shown that protection from HIV-1 infection was conferred to the progeny cells produced by CD34+ cells transduced with the anti-HIV ribozyme gene construct.
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PMID:Gene therapy targeting cord blood-derived CD34+ cells from HIV-exposed infants: preclinical studies. 957 43