Nina Barkhudaryan scite author profile

Studying the influence of brain cathepsin D (EC 3.4.23.5) and high molecular weight (HMW) aspartic endopeptidase (EC 3.4.23.-) on the processing of hypothalamic calmodulin-binding coronaro-constrictory peptide factors from the p-chain of globin it was found that only HMW aspartic endopeptidase generates the fragment 3140 of the p-chain of bovine hemoglobin (Hb) by cleavage of the Leuso-Leu" and Phe40-Phe41 bonds. Digestion of the B-chain of globin was performed at 37°C at an enzyme/substrate ratio of 1:80 at pH 3.5 using different times of incubation (from 4 h to 10 h). The resulting peptides were separated by reversed-phase high-performance liquid chromatography (HPLC) and then identified by amino acid analysis and Edman degradation. The differences in specificity and activity of these two brain aspartic proteinases could be explained by their different structural features. Our finding provides evidence for a different biological function of these two enzymes. Data obtained give us reason to suppose that HMW aspartic proteinase probably can participate in the processing of the coronaro-constrictory peptide in vivo by limited proteolysis of Hb or Hb-like protein.

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Structure of hypothalamic coronaro-constrictory peptide factors

Barkhudaryan

Oberthuer

Lottspeich

et al. 1992

Neurochem Res

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The following peptide structure in 3 of 5 coronaro-constrictory peptide factors isolated from bovine hypothalamus was determined by amino acid analysis and Edman degradation: 1) (P1)--Val-Val-Tyr-Pro-Trp; 2) (P2)--Val-Val-Tyr-Pro-Trp-Thr; 3) (P3)--Leu-Val-Val-Tyr-Pro-Trp-Thr. A computer search for these amino acid sequences revealed that these peptides represent fragments 33-37; 33-38; 32-38 of the beta-chain of bovine hemoglobin. Solid phase peptide synthesis of 2 peptides (P2 and P3) was carried out. It was established that synthetic peptides had the properties of coronaro-constrictory peptides. The possibility of the formation of hypothalamic coronaro-constrictory peptides in vivo is discussed.

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Action of brain cathepsin B, cathepsin D, and high-molecular-weight aspartic proteinase on angiotensins I and II

Azaryan¹,

Barkhudaryan²,

Galoyan³

et al. 1985

Neurochem Res

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The action of three previously isolated electrophoretically homogeneous brain proteinases--cathepsin B (EC 3.4.22.1), cathepsin D (EC 3.4.23.5), and high-molecular-weight aspartic proteinase (Mr = 90K; EC 3.4.23.-)--on human angiotensins I and II has been investigated. The products of enzymatic hydrolysis have been identified by thin-layer chromatography on Silufol plates using authentic standards and by N-terminal amino acid residue analysis using a dansyl chloride method. Cathepsin D and high-molecular-weight aspartic proteinase did not split angiotensin I or angiotensin II. Cathepsin B hydrolyzed angiotensin I via a dipeptidyl carboxypeptidase mechanism removing His-Leu to form angiotensin II, and it degraded angiotensin II as an endopeptidase at the Val3-Tyr4 bond. Cathepsin B did not split off His-Leu from Z-Phe-His-Leu. Brain cathepsin B may have a role in the generation and degradation of angiotensin II in physiological conditions.

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Some properties of human and bovine brain cathepsin B

Azaryan¹,

Barkhudaryan²,

Galoyan³

1985

Neurochem Res

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Cathepsin B has been purified 750-fold to apparent homogeneity from human and bovine brain cortex using ammonium sulfate fractionation (30-70%), chromatography on Sephadex G-100, CM-Sephadex C-50, and concanavalin A-Sepharose. Enzyme was assayed fluorometrically at pH 4.0 with pyridoxyl-hemoglobin in the presence of 1 mM DTT and 1 mM EDTA. Properties of the enzyme from the two sources proved to be similar. On disc PAGE the purified preparation produced two bands associated with proteinase activity that are due to existence of two multiple forms of brain cathepsin B with pI 6.1 and 6.8. The enzyme is completely inactivated by thiol-blocking reagents, leupeptin, E-64, and demands thiol compounds for its ultimate activity. Z-Phe-Ala-CHN2 is a potent inhibitor of the enzyme (K2nd = 1280 M-1S-1) in contrast to Z-Phe-Phe-CHN2 (K2nd = 264 M-1S-1). pH optimum in the reaction of hydrolysis of Pxy-Hb is 4.0-6.0, KM(app.) = 10(-5) M. Cathepsin B splits azocasein: pH optimum 5.0-6.0, KM(app.) = 2.2 X 10(-5) M, but inclusion of urea in the incubation medium depresses the azocaseinolytic activity of the enzyme 1.5-fold. It does not split Lys-NNap, Arg-NMec and is not inhibited by bestatin. The specific activity of brain cathepsin B with Z-Arg-Arg-NNapOMe at pH 6.0 is 10-fold higher than with Bz-Arg-NNap, Z-Gly-Gly-Arg-NNap is a poor substrate. With Z-Arg-Arg-NMec and Bz-Phe-Val-Arg-NMec the specific activity is 80 and 35%, respectively of that with Z-Phe-Arg-NMec.

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Calmodulin is a potent target for new hypothalamic neuropeptides

Horváth

Barkhudaryan²,

Galoyan³

et al. 1990

FEBS Letters

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Recently, five glycopeptides with coronaro‐constrictory properties were isolated from bovine hypothalamus [(1988) Neurochemistry (USSR) 7, 519‐524]. Calmodulin has been recognized in our laboratory as a target protein for the neuropeptides isolated from hypothalamus. The results of indirect enzyme‐linked immunosorbent assay have shown that the new hypothalamic neuropeptides antagonize with the monospecific anti‐calmodulin antibody for Calmodulin binding although they are not fragments of Calmodulin. The inhibitory potency of the peptides is dependent on their concentration and the length of the polypeptide chain. Four out of five peptides are effective in nM concentration range. Ca2+ stimulates the binding of peptides to calmodulin; however, immunocomplex can be formed in the absence of Ca2+ as well. The effects of trifluoperazine and peptides on the calmodulin/antibody interaction are not additive, suggesting the cooperativity between the binding sites on calmodulin. Under physiological conditions the presence of the peptides could produce distinct conformers of calmodulin which may exhibit altered potency for stimulation/inhibition of target enzymes.

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