Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although the brain contains cathepsins at high concentrations which exhibit a non-specific renin-like activity at acidic pH, the presence of specific renin in the brain has been demonstrated by characterizing its specific properties. Renin was separated from cathepsin by affinity chromatography on casein-Sepharose. Brain renin showed neutral pH optima for the reaction to generate angiotensin I. The presence of inactive prorenin was also found. The isoelectric points of brain renin were significantly lower differences from that of renal or plasma renin. Immunohistochemical studies demonstrated a wide-spread localization of renin in many different regions. Angiotensin II, the final product of the prohormone-to-hormone conversion reaction mediated by renin and angiotensin converting enzyme, was found to exist in the same cell as renin by immunohistochemical studies of brain sections and with cloned and cultured neuroblastoma cells. This is the first demonstration of the mechanism of peptide hormone formation in neuronal cells. Similar intracellular formation was demonstrated in gonadotrophs of adenohypophysis. Coexistence of renin and angiotensin II was demonstrated in some cells. Electrophysiological studies have shown that angiotensin II functions to disinhibit the inhibition of neuronal response to electrical stimuli in the hippocampus.
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PMID:Brain renin. 704 40

A central aspect of pathogenesis in the transmissible spongiform encephalopathies or prion diseases is the conversion of normal protease-sensitive prion protein (PrP-sen) to the abnormal protease-resistant form, PrP-res. Here we identify porphyrins and phthalocyanines as inhibitors of PrP-res accumulation. The most potent of these tetrapyrroles had IC50 values of 0.5-1 microM in scrapie-infected mouse neuroblastoma (ScNB) cell cultures. Inhibition was observed without effects on protein biosynthesis in general or PrP-sen biosynthesis in particular. Tetrapyrroles also inhibited PrP-res formation in a cell-free reaction composed predominantly of hamster PrP-res and PrP-sen. Inhibitors were found among phthalocyanines, deuteroporphyrins IX, and meso-substituted porphines; examples included compounds containing anionic, neutral protic, and cationic peripheral substituents and various metals. We conclude that certain tetrapyrroles specifically inhibit the conversion of PrP-sen to PrP-res without apparent cytotoxic effects. The inhibition observed in the cell-free conversion reaction suggests that the mechanism involved direct interactions of the tetrapyrrole with PrP-res and/or PrP-sen. These findings introduce a new class of inhibitors of PrP-res formation that represents a potential source of therapeutic agents for transmissible spongiform encephalopathies.
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PMID:Inhibition of protease-resistant prion protein formation by porphyrins and phthalocyanines. 977 Apr 49

Congo red (CR) has been shown to inhibit the accumulation in scrapie-infected cells of prion protein (PrP) in the abnormal protease-resistant form (PrP-res). However, it was not clear if this effect was due to a direct interaction of CR with either PrP-res or its protease-sensitive precursor (PrP-sen) or to a less direct effect on living cells. Here we show that CR inhibits PrP-res formation in a simple cell-free reaction composed predominantly of purified PrP-res and PrP-sen. Structurally modified CR analogues were also compared in both the cell-free conversion reaction and scrapie-infected neuroblastoma cells. Methylation of the central phenyl groups at the 2,2' positions diminished the inhibitory potency by > or = 10-fold. In contrast, there was little effect of 3,3' methylation of the phenyls, deletion of one phenyl, or addition of an amido group between the phenyls. The relative activities of these compounds were well correlated in both cellular and acellular systems. Molecular modeling indicated that CR and 3,3'-methyl-CR have little rotational restriction about the biphenyl bond and can readily adopt a planar conformation, as can phenyl-CR and amido-CR. In contrast, 2,2'-methyl-CR is restricted to a nonplanar conformation of the biphenyl group. Thus, planarity and/or torsional mobility of the central phenyl rings of CR and its analogues is probably important for inhibition of PrP-res formation. On the other hand, variations in the intersulfonate distance in these molecules had little effect on PrP-res inhibition. These results indicated a high degree of structural specificity in the inhibition of PrP-res formation by CR and related compounds.
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PMID:Structural aspects of Congo red as an inhibitor of protease-resistant prion protein formation. 983 53

The approach to the child with ataxia requires a detailed history and careful general and neurological examination as well as selected blood work and brain imaging and increasingly available genetic testing for inherited ataxias that usually have an episodic or progressive presentation. The differential of acute and recurring ataxia covered in this chapter includes intoxication (e.g., antiepileptics, lead, alcohol), postinfectious cerebellitis, hemorrhage, ischemic stroke, tumor (posterior fossa or cerebellum), brainstem encephalitis, occult neuroblastoma, Miller Fisher syndrome, conversion reaction, multiple sclerosis, epileptic pseudoataxia, vasculitis (e.g., Kawasaki), metabolic etiologies (e.g., maple syrup urine disease, pyruvate dehydrogenase deficiency, ornithine transcarbamylase deficiency, biotinidase deficiency, Hartnup disease, and argininosuccinic aciduria), migraine, migraine equivalents (benign paroxysmal positional vertigo), autosomal dominant episodic ataxias (with seven types currently identified), and hypothyroidism. Cooperation with therapists and providers from other specialties including ophthalmology and genetics and metabolism is essential to caring for these children and their families.
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PMID:Ataxia. 2362 31