Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.5.1.4 (
deaminase
)
5,113
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The aim of this study was to set up an in vitro system to study nephrotoxicity of xenobiotics which allows exposure at low concentrations for long periods (1-5 days). A very pure preparation of isolated proximal tubular cells (PTC) from rat kidney (Boogaard et al., Toxicol Appl Pharmacol 101: 135-143, 1989) was brought into primary culture. Cells grew to confluence in 3 days and could be maintained up to 8 days in a modification of Dulbecco's modified Eagle's medium Ham
F12
nutrient mixture supplemented with fetal calf serum. Fibroblast growth was completely suppressed by replacement of L-valine by D-valine and of L-arginine by L-ornithine. Polarity was retained: in cells grown on filters organic anions were transported at the basolateral membrane while D-glucose transport was located at the apical membrane. Inhibition of the latter was used to assess the functional integrity of the cells after exposure to nephrotoxins. The newly grown cells expressed gamma-glutamyltranspeptidase activity since incubation with the glutathione-conjugate of 1,1-dichloro-2,2-difluoroethylene (DCDFE) induced cytotoxicity. Both beta-lyase and
acylase
activities were expressed because the cysteine-S-conjugate and the corresponding mercapturate of DCDFE showed cytotoxicity. Cultured cells showed toxicity on prolonged exposure to very low concentrations of gentamicin, cephaloridine, cisplatin and the cysteine-S-conjugate of chlorotrifluoroethylene. The lowest concentrations at which toxicity can be observed are 1-3 orders of magnitude lower in primary cultures than in freshly isolated PTC in suspension. This indicates that this cell model is suitable to investigate mechanisms of nephrotoxicity in vitro, at prolonged exposure to the low concentrations that are relevant in vivo levels.
...
PMID:Primary culture of proximal tubular cells from normal rat kidney as an in vitro model to study mechanisms of nephrotoxicity. Toxicity of nephrotoxicants at low concentrations during prolonged exposure. 232 15
To capture the transcriptional dynamics within proliferating cells, methods to differentiate nascent transcription from preexisting mRNAs are desired. One approach is to label newly synthesized mRNA transcripts in vivo through the incorporation of modified pyrimidines. However, the human malaria parasite,
Plasmodium falciparum
, is incapable of pyrimidine salvage for mRNA biogenesis. To capture cellular mRNA dynamics during
Plasmodium
development, we engineered parasites that can salvage pyrimidines through the expression of a single bifunctional yeast
f
usion gene,
c
ytosine
deaminase
/
u
racil phosphoribosyltransferase (
FCU
). We show that expression of FCU allows for the direct incorporation of thiol-modified pyrimidines into nascent mRNAs. Using developmental stage-specific promoters to express
FCU-GFP
enables the biosynthetic capture and in-depth analysis of mRNA dynamics from subpopulations of cells undergoing differentiation. We demonstrate the utility of this method by examining the transcriptional dynamics of the sexual gametocyte stage transition, a process that is essential to malaria transmission between hosts. Using the
pfs16
gametocyte-specific promoter to express
FCU-GFP
in 3D7 parasites, we found that sexual stage commitment is governed by transcriptional reprogramming and stabilization of a subset of essential gametocyte transcripts. We also measured mRNA dynamics in
F12
gametocyte-deficient parasites and demonstrate that the transcriptional program required for sexual commitment and maturation is initiated but likely aborted due to the absence of the PfAP2-G transcriptional regulator and a lack of gametocyte-specific mRNA stabilization. Biosynthetic labeling of
Plasmodium
mRNAs is incredibly versatile, can be used to measure transcriptional dynamics at any stage of parasite development, and will allow for future applications to comprehensively measure RNA-protein interactions in the malaria parasite.
...
PMID:Capturing in vivo RNA transcriptional dynamics from the malaria parasite
Plasmodium falciparum
. 2841 33
