REFERENCES
- Thanawala, V.; Kadam, V.J.; Ghosh, R. Enkephalinase inhibitors: Potential agents for the management of pain. Current Drug Targets 2008, 9, 887–894.
- Hashimoto, J.; Yamamoto, Y.; Kurosawa, H.; Nishimura, K.; Hazato, T. Identification of dipeptidyl peptidase III in human neutrophils. Biochemical and Biophysical Research Communication 2000, 273, 93–97.
- Dhanda, S.; Singh, J.; Singh, H. Interaction of goat brain enkephalin degrading enzymes with analgesic and antihypertensive drugs. Medicinal Chemistry Research 2011, 20, 1294–1297.
- Khaket, T.P.; Singh, J.; Attri, P.; Dhanda, S. Enkephalin degrading enzymes: Metalloproteases with high potential for drug development. Current Pharmaceutical Design 2012, 18, 220–230.
- Dhanda, S.; Singh, H.; Singh, J. Hydrolysis of various bioactive peptides by goat brain dipeptidylpeptidase-III. Cell Biochemistry and Function 2008, 23(3), 339–345.
- Dhanda, S.; Singh, H.; Singh, J.; Singh, T.P. Functional characterization and specific effects of various peptides on enzymatic activity of a DPP-III homologue from goat brain. Journal of Enzyme Inhibition and Medicinal Chemistry 2008, 23, 174–181.
- Shiomi, H.; Kuraishi, Y.; Ueda, H.; Harada, Y.; Amano, H.; Takagi, H. Mechanism of kyotorphin-induced release of Met-enkephalin from guinea pigs striatum and spinal cord. Brain Research 1981, 221, 161–169.
- Yamamoto, Y.; Hashimoto, J.; Shimamura, M.; Yamaguchi, T.; Hazato, T. Characterization of tynorphin, a potent endogenous inhibitor of dipeptidyl peptidase-III. Peptides 2000, 21(4), 503–508.
- Agic, D.; Hranjec, M.; Jajcanin, N.; Starcevic, K.; Karminski-Zamola, G.; Abramic, M. Novel amidino-substituted benzimidazoles, synthesis of compounds and inhibition of dipeptidyl peptidase III. Bioorganic Chemistry 2007, 35, 153–169.
- Abramic, M.; Schleuder, D.; Dolovcak, L.; Schroder, W.; Strupat, K.; Sagi, D.; Peter-Katalinic, J.; Vitale, L. Human and rat dipeptidyl peptidase III, biochemical and mass spectrometric arguments for similarities and differences. Biological Chemistry 2000, 381(12), 1233–1243.
- Yamamoto, Y.; Ono, H.; Ueda, A.; Shimamura, M.; Nishimura, K.; Hazato, T. Spinorphin as an endogenous inhibitor of enkephalin-degrading enzymes, roles in pain and inflammation. Current Protein and Peptide Science 2002, 3(6), 587–599.
- Hartmann, R.; Meisel, H. Food-derived peptides with biological activity, from research to food applications. Current Opinion in Biotechnology 2007, 18(2), 163–169.
- Otte, J.; Shalaby, S.M.A.; Zakora, M.; Nielsen, M.S. Fractionation and identification of ACE-inhibitory peptides from α-lactalbumin and β-casein produced by thermolysin-catalysed hydrolysis. International Dairy Journal 2007, 17, 1460–1472.
- Cinq-Mars, C.D.; Li-Chan, E.C.Y. Optimizing angiotensin-Iconverting enzyme inhibitory activity of Pacific hake (Merluccius productus) fillet hydrolysate using response surface methodology and ultrafiltration. Journal of Agricultural and Food Chemistry 2007, 55, 9380–9388.
- Guo, Y.; Pan, D.; Tanokura, M. Optimisation of hydrolysis conditions for the production of the angiotensin-I converting enzyme (ACE) inhibitory peptides from whey protein using response surface methodology. Food Chemistry 2009, 114, 328–333.
- Nakajima, K.; Yoshie-Stark, Y.; Ogushi, M. Comparison of ACE inhibitory and DPPH radical scavenging activities of fish muscle hydrolysates. Food Chemistry 2009, 114, 844–851.
- Kamau, S.M.; Lu, R.R.; Chen, W.; Liu, X.M.; Tian, F.W.; Shen, Y.; Gao, T. Functional significance of bioactive peptides derived from milk proteins. Food Reviews International 2010, 26, 386–401.
- Gu, Y.; Majumder, K.; Wu, J. QSAR-aided in silico approach in evaluation of food proteins as precursors of ACE inhibitory peptides. Food Research International 2011, 44, 2465–2474.
- Lacroix, I.M.E.; Li-Chan, E.C.Y. Evaluation of the potential of dietary proteins as precursors of dipeptidyl peptidase (DPP)-IV inhibitors by an in silico approach. Journal of Functional Foods 2012, 4, 403–422.
- Frye, C.A.; Bock, B.C.; Kanarek, R.B. Hormonal milieu affects tail flick latency in female rats and may be attenuated by access to sucrose. Physiology and Behavior 1992, 52, 699–706.
- Ren, K.; Blass, E.M.; Zhou, Q.; Dubner, R. Suckling and sucrose ingestion suppress persistent hyperalgesia and spinal Fos expression after forepaw inflammation in infant rats. Proceedings of the National Academy of Science USA 1997, 94, 1471–1475.
- Yehuda, S.; Carasso, R.L. Modulation of learning, pain thresholds, and thermoregulation in the rats by preparations of free purified alpha linolenic and linolenic acids, determination of their optimal ratio. Proceedings of the National Academy of Science USA 1993, 90, 10345–10349.
- Zhang, T.; Reid, K.; Acuff, C.G. Cardiovascular and analgesic effects of a highly palatable diet in spontaneously hypertensive and Wistar-Kyoto rats. Pharmacology Biochemistry and Behavior Journal 1994, 48, 57–61.
- Lieberman, H.R.; Corkin, S.; Spring, B.J. Mood, performance, and pain sensitivity, changes induced by food constituents. Journal of Psychiatric Research 17(2), 135–145.
- Abbott, F.V.; Etienne, P.; Franklin, K.B.J.; Morgan, M.J.; Sewitch, M.J.; Young, S.N. Acute tryptophan depletion blocks morphine analgesia in the cold-pressor test in humans. Psychopharmacology 1992, 108, 60–66.
- Seltzer, S.; Stoch, R.; Marcus, R.; Jackson, E.J. Alteration of human pain thresholds by nutritional manipulation and L-tryptophan supplementation. Pain 1982, 13, 385–392.
- Cheung, I.W.Y.; Nakayama, S.; Hsu, M.N.K.; Samaranayaka, A.G.P.; Li-Chan, E.C.Y. Angiotensin-I converting enzyme inhibitory activity of hydrolysates from oat (Avena sativa) proteins by in silico and in vitro analyses. Journal of Agricultural and Food Chemistry 2009, 57, 9234–9242.
- Dziuba, M.; Dziuba, B.; Iwaniak, A. Milk proteins as precursors of bioactive peptides. ACTA Scientiarum Polonorum Technologia Alimentaria 2009, 8, 71–90.
- Dziuba, J.; Iwaniak, A.; Minkiewicz, P. Computer-aided characteristics of proteins as potential precursors of bioactive peptides. Polimery 2003, 48, 50–53.
- Lee, C.M.; Snyder, S.H. Dipeptidylaminopeptidase-III of rat brain selective affinity for enkephalin and angiotensin. Journal of Biological Chemistry 1982, 257, 12043–12050.
- Chiba, T.; Li, Y.; Yamane, T.; Ogikubo, O.; Fukuoka, M.; Arai, R.; Takahashi, S.; Ohtsuka, T.; Ohkubo, I.; Matsui, N. Inhibition of recombinant dipeptidyl peptidase III by synthetic hemorphin-like peptides. Peptides 2003, 24, 773–778.
- Barsun, M.; Jajcanin, N.; Vukelic, B.; Spoljaric, J.; Abramic, M. Human dipeptidyl peptidase III acts as a post-proline-cleaving enzyme on endomorphins. Biological Chemistry 2007, 388, 343–348.
- Shir, Y.; Sheth, R.; Campbell, J.N.; Raja, S.N.; Seltzer, Z. Soy-containing diet suppresses chronic neuropathic sensory disorders in rats. Anesthesia and Analgesia 2001, 92, 1029–1034.
- Owoyele, B.V.; Negedu, M.N.; Olaniran, S.O.; Onasanwo, S.A.; Oguntoye, S.O.; Sanya, J.O.; Oyeleke, S.A.; Ibidapo, A.J.; Soladoye, A.O. Analgesic and anti-inflammatory effects of aqueous extract of Zea mays husk in male Wistar rats. Journal of Medicinal Food 2010, 13(2), 343–347.
- Clare, D.A.; Swaisgood, H.E. Bioactive milk peptides, A prospectus. Journal of Dairy Science 2000, 83, 1187–1195.
- Mine, Y.; Kovacs-Nolan, J. New insights in biologically active proteins and peptides derived from hen egg. World’s Poultry Science Journal 2006, 62, 87–96.
- Ivanov, V.T.; Karelin, A.A.; Philippova, M.M; Nazimov, I.V.; Pletnev, V.Z. Hemoglobin as a source of endogenous bioactive peptides, the concept of tissue specific peptide pool. Biopolymers 1997, 43(2), 171–188.