Peptides
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Dynorphins and beta-endorphin in human plasma were characterized and studied quantitatively using radioimmunoassay, high-performance liquid chromatography (HPLC), and mass spectrometry. Most immunoreactive (ir) dynorphin B and beta-endorphin in human plasma coeluted with authentic peptides in analysis. Dynorphin A was not detected. ⋯ Dynorphin B, alpha-neoendorphin and big dynorphin were virtually not metabolized by plasma proteases under the same conditions. beta-endorphin was processed into beta-endorphin(1-19) and the corresponding C-terminal counterpart beta-endorphin(20-31) at a rate of about 25 pmol/min/microl of plasma. Based on the above data, a reliable strategy was established to measure dynorphin B- and beta-endorphin-ir in human plasma samples. The basal levels in a male control group were 0.99 +/- 0.11 (n = 11) and 16.3 +/- 1.5 (n = 11) fmol/ml plasma, respectively.
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Plasma proenkephalin peptide F and human B cell responses to exercise stress in fit and unfit women.
In vitro studies have connected immune cell function to Peptide F. The primary purpose of this investigation was to examine the responses of plasma Peptide F and epinephrine along with the changes in B cell antibody production in vivo in physically fit and unfit women in response to physical exercise on a cycle ergometer at 60% and 80% of peak oxygen consumption. Seven aerobically fit and eight untrained (i.e., unfit) women between the ages of 18 and 30 volunteered to participate in this investigation. ⋯ The fit group had a significantly higher plasma Peptide F concentration after the 80% exercise intensity along with significantly higher numbers of antibody producing B cells compared to the unfit group. The results of this investigation show that physically fit women have an enhanced secondary response of B cells to a specific antigen under conditions where Peptide F is increased. Such data demonstrate that physical fitness as promoted by the Public Health Service (e.g., Healthy People 2000) influences the underlying hormonal and immune cell responses when challenged by physical exercise stress.
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Comparative Study
Change in substance P in a firearm wound and its significance.
The present study was designed to detect the change of substance P (SP) in firearm wounds and its relationship with wound healing. Twenty two rabbits were randomly divided into two groups, one with firearm wounds created by steel balls shooting rabbits' thighs and another with stab wounds created by knife. The experimental design did not include direct injury to femora major peripheral nerve trunks or blood vessels. ⋯ Meanwhile, wound healing in the firearm wounds was poor compared with that in the stab wounds. The results suggest that the change in SP in firearm wounds differs from that in cold weapon wounds as a result of the presence of indirect injuries to major peripheral nerve trunks created by laceration shock wave and cavity effects, and SP in vivo may participate in wound healing as a growth factor. Therefore, the improvement of neuropeptide metabolism in firearm wound may be an important measure for accelerating wound healing.