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: EC:2.1.1.69 (
BMT
)
2,655
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The therapeutic potential of enzyme replacement in lysosomal storage disorders has remained largely unfulfilled, perhaps because of negative reactions to the initial disappointing results. Despite the existence of several animal models that can be utilized to explore solutions to the problems of exogenous enzyme targeting, the interest in
ERT
prevalent during the 1970's seems to have subsided to be replaced by active interest in bone marrow transplantation (
BMT
, Krivit and Paul [1986]). This is a logical approach to enzyme replacement in storage disorders of the RE system, and indeed some encouraging results have been obtained. However, in addition to having high morbidity and mortality, in the ultimate analysis
BMT
presents the same targeting problems as conventional
ERT
. In our opinion, these problems can be solved more easily in the case of
ERT
by exploiting the existing cellular uptake mechanisms and infusing enzymes whose structure has been suitably modified by simple biochemical manipulations. Accordingly, we have explored a methodology that takes advantage of negative charges on the cell surface to obtain nonspecific but effective membrane binding of beta-hex coupled to the highly positively charged PLL, followed by internalization and routing to the lysosomes. This system increases uptake of exogenous enzyme by some neurons in vitro and possibly in vivo, but its efficiency depends on the cells' endocytic activity that, in the case of neuronal soma, apparently is low. Thus, we have chosen as recognition marker for specific neuronal uptake a nontoxic fragment of TTx that is efficiently taken up by these cells. The initial results are encouraging; they support our contention that effective enzyme replacement methodologies can be devised, and encourage us to continue our work in this direction. Finally, recombinant DNA techniques are now being applied to a number of LSD, and the genes for several of the pertinent enzymes have been or are being isolated. In addition to representing a first step towards gene replacement therapy, the results of this work will permit the generation of large amounts of human enzymes from bacteria by recombinant DNA methods, thus obviating the problem of enzyme supply for
ERT
. Since human lysosomal enzymes obtained from bacteria will be nonglycosylated, to obtain cell uptake it will be necessary to resort to the type of modifications that we are trying to develop at this time, i.e., covalent linkage to moieties that allow non-glycosyl-mediated cellular uptake. Thus, our work on beta-hex may provide a model for biochemical manipulations of bacterially produced enzymes applicable to several LSD.
...
PMID:Modified beta-D-N-acetylhexosaminidase isozymes for enzyme replacement in GM2 gangliosidosis. 295 16
In Alpha-mannosidosis (MIM 248500) the patients accumulate mainly unbranched oligosaccharide chains in the lysosomes in all body tissues, including the brain. With ensuing therapeutic modalities in man (
BMT
and
ERT
) non-invasive methods of monitoring the effect of treatment are needed. Paramount is the possible effect of the treatment on the brain, since this organ is regarded as difficult to reach because of the blood-brain barrier. We therefore performed proton nuclear magnetic resonance spectroscopy (MRS) of the brain in two untreated patients, and a 16-year-old patient treated with
BMT
at the age of 10 to assess whether this non-invasive method could be applied in the monitoring of the accumulation of abnormal chemicals in the brain of patients. We found an abnormal peak that was not present in the treated patient. A similar pattern was also found in MRS of urine from patients, reflecting the concentration of oligosaccharides in serum and tissues. We therefore conclude that MRS can be a useful method to monitor the effect of treatment for Alpha-Mannosidosis.
...
PMID:Proton nuclear magnetic resonance spectroscopic detection of oligomannosidic n glycans in alpha-mannosidosis: a method of monitoring treatment. 2154 23
