TY - JOUR
T1 - Peptide fragments derived from the β-chain of hemoglobin (hemorphins) are centrally active in vivo
AU - Davis, Thomas P.
AU - Gillespie, Terrence J.
AU - Porreca, Frank
N1 - Funding Information:
This work was supported by USPHS grants MH 42600, DK 36289 and CA 44869 to Thomas P. Davis and DK 36289, DA 04285, and DA 04248 to Frank Porreca. The authors wish to acknowledge the assistance of Helen Papietro, Linda Nunan, Sheila Mulvaney and Qi Jiang for technical assistance and Sarah Anne Jackson for typing the manuscript. Mass spectral determinations were performed by the Midwest Center for Mass Spectrometry, a National Science Foundation Regional Facility (Grant No., CHE 8211164). The help and assistance of Ronald L. Cerny, Ph.D., of the Midwest Center for Mass Spectrometry is gratefully acknowledged.
PY - 1989
Y1 - 1989
N2 - A novel tetrapeptide (hemorphin-4) and pentapeptide (hemorphin-5), derived from the β-chain of hemoglobin, were synthesized by solid-phase methodology, purified and the amino acid sequences confirmed. The central (ICV) effects of hemorphin-4 and -5 were studied in two models of phasic and tonic nociception, the mouse warm water tail-flick assay and hindpaw formalin assay, respectively. Additionally, two physiological endpoints, central modulation of bladder motility and central effects on intestinal propulsion, were studied in rats and mice, respectively. In the tail-flick assay, both peptides (40-100 nmoles) produced a dose-related naloxone-reversible antinociceptive effect when tested 10 min after peptide administration, with the tetrapeptide being slightly more potent than the pentapeptide. No effect was noted for either peptide using the tonic nociception assay, except at a dose of 150 nmoles for hemorphin-5. Inhibition of gastrointestinal propulsion was also not affected by either peptide. However, both peptides (10-40 nmoles) inhibited micturition contractions in a dose-related and naloxone-reversible fashion, with the tetrapeptide being twice as potent as the pentapeptide. These findings provide evidence that hemorphin-4 and -5 exert naloxone-reversible opioid actions in vivo and, therefore, may be physiologically important blood-borne peptides.
AB - A novel tetrapeptide (hemorphin-4) and pentapeptide (hemorphin-5), derived from the β-chain of hemoglobin, were synthesized by solid-phase methodology, purified and the amino acid sequences confirmed. The central (ICV) effects of hemorphin-4 and -5 were studied in two models of phasic and tonic nociception, the mouse warm water tail-flick assay and hindpaw formalin assay, respectively. Additionally, two physiological endpoints, central modulation of bladder motility and central effects on intestinal propulsion, were studied in rats and mice, respectively. In the tail-flick assay, both peptides (40-100 nmoles) produced a dose-related naloxone-reversible antinociceptive effect when tested 10 min after peptide administration, with the tetrapeptide being slightly more potent than the pentapeptide. No effect was noted for either peptide using the tonic nociception assay, except at a dose of 150 nmoles for hemorphin-5. Inhibition of gastrointestinal propulsion was also not affected by either peptide. However, both peptides (10-40 nmoles) inhibited micturition contractions in a dose-related and naloxone-reversible fashion, with the tetrapeptide being twice as potent as the pentapeptide. These findings provide evidence that hemorphin-4 and -5 exert naloxone-reversible opioid actions in vivo and, therefore, may be physiologically important blood-borne peptides.
KW - FAB/MS
KW - Hemoglobin
KW - Hemorphins
KW - Mu and delta receptors
KW - Peptide fragments
KW - Peptide metabolism
KW - Peptide synthesis
KW - Reflex contractions
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U2 - 10.1016/0196-9781(89)90107-1
DO - 10.1016/0196-9781(89)90107-1
M3 - Article
C2 - 2587417
AN - SCOPUS:0024435261
SN - 0196-9781
VL - 10
SP - 747
EP - 751
JO - Peptides
JF - Peptides
IS - 4
ER -