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:3.1.26.9 (
ribonuclease
)
6,589
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The polyamines (PA) spermidine (SD) and spermine and their precursor putrescine (PU) play a leading role in the regulation of protein, RNA and DNA synthesis. We examined the role of PA along with other biomarkers of injury in eight victims of multiple trauma in the early post-traumatic period when they were hypermetabolic and highly catabolic. Intravenous nutritional therapy (TPN) was started 48 to 60h after trauma and continued for 6 days. The basal response to severe trauma was a significant (twofold to threefold) rise in urinary PU (p = 0.05) and SD (p = 0.025) levels compared to normal subjects. Six days of TPN further enhanced the basal excretion of PU (157%) and SD (137%) peaking on the third day. There was a 20% reduction in the excretion of
3-methylhistidine
on the first day of TPN, but it was still 40% above normal on the sixth day. The negative nitrogen balance was improved but not reversed. Injury stimulated
ribonuclease
and catecholamine levels were also enhanced by nutritional therapy, peaking on the first and fourth day of TPN, respectively. This study demonstrated for the first time elevated levels of PA in trauma patients that correlated well with the other known measures of protein metabolic response to injury and changes during nutritional therapy. Extracellular PA levels could be used as markers of both catabolic pathology in trauma and of its response to nutritional therapy.
...
PMID:Effect of nutritional therapy on polyamine metabolism in severely traumatized patients. 180 84
The significance of free alkaline ribonuclease (
RNase
) activity as a criterion of protein metabolism and nutrition in traumatized man is evaluated in this report. Plasma and urinary levels of
RNase
were measured in severely injured, hypermetabolic patients and in normal controls. Significant increases in the plasma and urinary
RNase
levels were seen in these polytrauma victims and they were positively correlated. Plasma
RNase
levels were also significantly related to blood urea nitrogen and daily urinary nitrogen excretion. Urinary clearance of
RNase
was increased by 220% in trauma victims, although the creatinine clearance was not affected by trauma. In a subgroup of eight patients who were fed intravenously (1.4 times basal energy expenditure calories and 250-300 mg of N per kilogram per day) for 6 days, the daily excretions of urinary
RNase
, nitrogen,
3-methylhistidine
, creatinine, and catecholamines were measured. There was a significant negative correlation between daily urine
RNase
and nitrogen balance. A general increase in all the metabolic parameters on the first day of feeding was seen, suggesting a nutritional stress superimposed on the trauma-induced metabolic stress. Excretion of
RNase
,
3-methylhistidine
, and creatinine peaked on the first day of feeding and then decreased. The normal levels could not be reached even after 6 days of adequate nutrition. The results suggest that
RNase
levels could be used as a biomarker of protein metabolism.
...
PMID:Nutritional influence on the plasma and urine-free alkaline ribonuclease levels in severe trauma victims. 190 73
The effects of different intravenous nutritional regimens on a number of biochemical indices of nutritional status were studied during the 8-day period following severe trauma. The inclusion of large amounts of amino acids (high nitrogen (N) was shown to greatly improve N balance over an isocaloric regimen containing no amino acids (O g N). The concentration of serum albumin, transferrin, prealbumin, and retinol-binding protein all fell during the study period in both patient groups, whereas the serum concentrations of acute phase reactants and of
ribonuclease
increased in the two groups. The sum of plasma levels of branched-chain amino acids and the essential amino acids was increased to a greater extent in the high N group. These amino acid totals and the ratio of glycine/valine showed a significant correlation with N balance in this group. Despite the marked difference in N balance,
3-methylhistidine
excretion was increased but equal in the two nutritional groups, suggesting an increased rate of muscle protein breakdown in both groups, which appears not to be influenced by amino acid nutrition. It is concluded that N balance can be significantly improved in the immediate posttrauma period by provision of amino acids together with energy substrates. None of the biochemical variables measured, with the exception of plasma levels of essential amino acids, reflected these marked differences in N balance.
...
PMID:Biochemical changes associated with severe trauma. 677 18
Tissue protein turnover can be assessed by a number of semi-, quantitative and qualitative methods. There are a number of static indices of the state of turnover of protein, for example amount of RNA per DNA or protein, the state of aggregation of ribosomes (i.e. the polyribosome index), the abundance of mRNA for particular proteins, and the enzymatic activity of proteins such as proteases,
ribonuclease
, etc. In addition, the concentration of particular amino acids such as glutamine or non-re-utilizable amino acids, formed post-translationally, such as
3-methylhistidine
or hydroxyproline, are able to provide snapshot indices. However, since turnover is a dynamic process it should, ideally, be probed using methods such as the incorporation of tracer amino acids into protein or the dilution of tracer amino acids in the free pool by protein breakdown. The combination of tracer and tissue or limb balance methods is especially powerful since all the dynamic processes can potentially be quantified. The use of stable isotopes to label metabolic tracers has dramatically increased the feasibility of carrying out measurements of protein synthesis and breakdown and there has been a substantial growth in the application of the methods to a wide variety of tissues sampled by biopsy or at operation. Summaries of a number of currently feasible methods are provided, together with commentary on the relative efficacy of the methods and of the instrumental techniques required. There is also a discussion of suitable tracer labels and amino acids, plus a summary of the most reliable current values for protein turnover in a variety of tissues. The review also contains descriptions of potential methods which have not yet been applied in human beings but which are feasible, given the current recent increases in the accuracy and sensitivity of instrumentation for measurement of stable isotope labelling.
...
PMID:The measurement of tissue protein turnover. 902 47
