Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.1.1 (asparaginase)
 2,695 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report the first known case of daunorubicin administered directly into the human central nervous system. A 3 1/2-year-old female with pneumonia and otitis media was diagnosed with acute lymphoblastic leukemia and was admitted for antibiotics and chemotherapy. On the first day she inadvertently received a 17 mg intrathecal (IT) injection of daunorubicin. When the error was recognized about 1 hour later, her cerebrospinal fluid (CSF) was exchanged with sterile saline by barbotage, IT hydrocortisone was given, a subarachnoid catheter was inserted, and the CSF was allowed to drain for 36 hours. Only 5.6 mg (33%) of the dose was recovered from CSF, 2.7 mg as daunorubicin and 2.9 mg as the metabolite, daunorubicinol. Initially she was asymptomatic and induction therapy continued with vincristine, 1-asparaginase, prednisone, and IT methotrexate. One week after the daunorubicin injection she developed headache and irritability; CSF protein was 3.2 gm/dl. On the 12th day, she developed fungal sepsis and worsening pneumonia. On the 15th day, she became comatose with a flacid paraparesis, areflexia, and an ascending progressive bulbar palsy. A series of computerized tomography scans over 6 weeks showed increasing diffuse cerebral atrophy. Nerve conduction velocity studies were consistent with an axonal neuropathy. Despite her multiple concurrent medical problems, the timing and characteristics of neurologic damage suggest that IT daunorubicin caused progressive destruction of the nervous system.
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PMID:Inadvertent intrathecal injection of daunorubicin with fatal outcome. 157 39

Increasingly vigorous chemotherapy of cancer including primary and metastatic central nervous system disease has resulted in prolonged good-quality survival. However, there has been an associated increase in neurotoxicity from both radiation therapy and chemotherapy. All classes of chemotherapeutic agents contain drugs that are potentially neurotoxic, often only at high doses. Mechlorethamine, the first nitrogen mustard, is not neurotoxic at conventional dosage, but at high doses, it may produce both an acute and a delayed encephalopathy. Methotrexate administered intrathecally often induces reversible aseptic meningitis, but chronic administration, either intrathecally or high-dose intravenously, may produce fatal leukoencephalopathy. 5-Fluorouracil at high dosage may cause cerebellar ataxia, but may also do so at low dosage when combined with thymidine infusions. Cytosine arabinoside at high dosage may also produce cerebellar ataxia. Vincristine produces a peripheral neuropathy, and less commonly causes both autonomic and cranial neuropathy. The enzyme L-asparaginase can produce a dose-related reversible encephalopathy. BCNU, now the mainstay of glioma chemotherapy, may combine with radiation to produce long-term cerebral atrophy. Both intracarotid and high-dose intravenous BCNU administration may cause encephalopathy. Several other chemotherapeutic agents have also been reported to cause neurotoxicity under certain circumstances.
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PMID:Neurological complications of antineoplastic therapy. 638 4

Asparagine synthetase (ASNS) converts aspartate and glutamine to asparagine and glutamate in an ATP-dependent reaction. ASNS is present in most, if not all, mammalian organs, but varies widely in basal expression. Human ASNS activity is highly responsive to cellular stress, primarily by increased transcription from a single gene located on chromosome 7. Elevated ASNS protein expression is associated with resistance to asparaginase therapy in childhood acute lymphoblastic leukemia. There is evidence that ASNS expression levels may also be inversely correlated with asparaginase efficacy in certain solid tumors as well. Children with mutations in the ASNS gene exhibit developmental delays, intellectual disability, microcephaly, intractable seizures, and progressive brain atrophy. Thus far, 15 unique mutations in the ASNS gene have been clinically associated with asparagine synthetase deficiency (ASD). Molecular modeling using the Escherichia coli ASNS-B structure has revealed that most of the reported ASD substitutions are located near catalytic sites or within highly conserved regions of the protein. For some ASD patients, fibroblast cell culture studies have eliminated protein and mRNA synthesis or stability as the basis for decreased proliferation.
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PMID:Asparagine synthetase: Function, structure, and role in disease. 2908 49