5ugd

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Protease InhibitorProtease Inhibitor

Structural highlights

5ugd is a 1 chain structure with sequence from Homo sapiens. Full crystallographic information is available from OCA. For a guided tour on the structure components use FirstGlance.
Method:X-ray diffraction, Resolution 1.38Å
Ligands:
Resources:FirstGlance, OCA, PDBe, RCSB, PDBsum, ProSAT

Disease

PLMN_HUMAN Defects in PLG are the cause of plasminogen deficiency (PLGD) [MIM:217090. PLGD is characterized by decreased serum plasminogen activity. Two forms of the disorder are distinguished: type 1 deficiency is additionally characterized by decreased plasminogen antigen levels and clinical symptoms, whereas type 2 deficiency, also known as dysplasminogenemia, is characterized by normal, or slightly reduced antigen levels, and absence of clinical manifestations. Plasminogen deficiency type 1 results in markedly impaired extracellular fibrinolysis and chronic mucosal pseudomembranous lesions due to subepithelial fibrin deposition and inflammation. The most common clinical manifestation of type 1 deficiency is ligneous conjunctivitis in which pseudomembranes formation on the palpebral surfaces of the eye progresses to white, yellow-white, or red thick masses with a wood-like consistency that replace the normal mucosa.[1] [2] [3] [4] [5] [6] [7] [8]

Function

PLMN_HUMAN Plasmin dissolves the fibrin of blood clots and acts as a proteolytic factor in a variety of other processes including embryonic development, tissue remodeling, tumor invasion, and inflammation. In ovulation, weakens the walls of the Graafian follicle. It activates the urokinase-type plasminogen activator, collagenases and several complement zymogens, such as C1 and C5. Cleavage of fibronectin and laminin leads to cell detachment and apoptosis. Also cleaves fibrin, thrombospondin and von Willebrand factor. Its role in tissue remodeling and tumor invasion may be modulated by CSPG4. Binds to cells.[9] Angiostatin is an angiogenesis inhibitor that blocks neovascularization and growth of experimental primary and metastatic tumors in vivo.[10]

Publication Abstract from PubMed

The zymogen protease plasminogen and its active form plasmin perform key roles in blood clot dissolution, tissue remodeling, cell migration, and bacterial pathogenesis. Dysregulation of the plasminogen/plasmin system results in life-threatening hemorrhagic disorders or thrombotic vascular occlusion. Accordingly, inhibitors of this system are clinically important. Currently, tranexamic acid (TXA), a molecule that prevents plasminogen activation through blocking recruitment to target substrates, is the most widely used inhibitor for the plasminogen/plasmin system in therapeutics. However, TXA lacks efficacy on the active form of plasmin. Thus, there is a need to develop specific inhibitors that target the protease active site. Here we report the crystal structures of plasmin in complex with the novel YO (trans-4-aminomethylcyclohexanecarbonyl-l-tyrosine-n-octylamide) class of small molecule inhibitors. We found that these inhibitors form key interactions with the S1 and S3' subsites of the catalytic cleft. Here, the TXA moiety of the YO compounds inserts into the primary (S1) specificity pocket, suggesting that TXA itself may function as a weak plasmin inhibitor, a hypothesis supported by subsequent biochemical and biophysical analyses. Mutational studies reveal that F587 of the S' subsite plays a key role in mediating the inhibitor interaction. Taken together, these data provide a foundation for the future development of small molecule inhibitors to specifically regulate plasmin function in a range of diseases and disorders.

X-ray crystal structure of plasmin with tranexamic acid-derived active site inhibitors.,Law RHP, Wu G, Leung EWW, Hidaka K, Quek AJ, Caradoc-Davies TT, Jeevarajah D, Conroy PJ, Kirby NM, Norton RS, Tsuda Y, Whisstock JC Blood Adv. 2017 May 9;1(12):766-771. doi: 10.1182/bloodadvances.2016004150., eCollection 2017 May 9. PMID:29296720[11]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.

See Also

References

  1. Ichinose A, Espling ES, Takamatsu J, Saito H, Shinmyozu K, Maruyama I, Petersen TE, Davie EW. Two types of abnormal genes for plasminogen in families with a predisposition for thrombosis. Proc Natl Acad Sci U S A. 1991 Jan 1;88(1):115-9. PMID:1986355
  2. Azuma H, Uno Y, Shigekiyo T, Saito S. Congenital plasminogen deficiency caused by a Ser572 to Pro mutation. Blood. 1993 Jul 15;82(2):475-80. PMID:8392398
  3. Miyata T, Iwanaga S, Sakata Y, Aoki N. Plasminogen Tochigi: inactive plasmin resulting from replacement of alanine-600 by threonine in the active site. Proc Natl Acad Sci U S A. 1982 Oct;79(20):6132-6. PMID:6216475
  4. Miyata T, Iwanaga S, Sakata Y, Aoki N, Takamatsu J, Kamiya T. Plasminogens Tochigi II and Nagoya: two additional molecular defects with Ala-600----Thr replacement found in plasmin light chain variants. J Biochem. 1984 Aug;96(2):277-87. PMID:6238949
  5. Kikuchi S, Yamanouchi Y, Li L, Kobayashi K, Ijima H, Miyazaki R, Tsuchiya S, Hamaguchi H. Plasminogen with type-I mutation is polymorphic in the Japanese population. Hum Genet. 1992 Sep-Oct;90(1-2):7-11. PMID:1427790
  6. Schuster V, Mingers AM, Seidenspinner S, Nussgens Z, Pukrop T, Kreth HW. Homozygous mutations in the plasminogen gene of two unrelated girls with ligneous conjunctivitis. Blood. 1997 Aug 1;90(3):958-66. PMID:9242524
  7. Higuchi Y, Furihata K, Ueno I, Ishikawa S, Okumura N, Tozuka M, Sakurai N. Plasminogen Kanagawa-I, a novel missense mutation, is caused by the amino acid substitution G732R. Br J Haematol. 1998 Dec;103(3):867-70. PMID:9858247
  8. Schuster V, Seidenspinner S, Zeitler P, Escher C, Pleyer U, Bernauer W, Stiehm ER, Isenberg S, Seregard S, Olsson T, Mingers AM, Schambeck C, Kreth HW. Compound-heterozygous mutations in the plasminogen gene predispose to the development of ligneous conjunctivitis. Blood. 1999 May 15;93(10):3457-66. PMID:10233898
  9. Rossignol P, Ho-Tin-Noe B, Vranckx R, Bouton MC, Meilhac O, Lijnen HR, Guillin MC, Michel JB, Angles-Cano E. Protease nexin-1 inhibits plasminogen activation-induced apoptosis of adherent cells. J Biol Chem. 2004 Mar 12;279(11):10346-56. Epub 2003 Dec 29. PMID:14699093 doi:10.1074/jbc.M310964200
  10. Rossignol P, Ho-Tin-Noe B, Vranckx R, Bouton MC, Meilhac O, Lijnen HR, Guillin MC, Michel JB, Angles-Cano E. Protease nexin-1 inhibits plasminogen activation-induced apoptosis of adherent cells. J Biol Chem. 2004 Mar 12;279(11):10346-56. Epub 2003 Dec 29. PMID:14699093 doi:10.1074/jbc.M310964200
  11. Law RHP, Wu G, Leung EWW, Hidaka K, Quek AJ, Caradoc-Davies TT, Jeevarajah D, Conroy PJ, Kirby NM, Norton RS, Tsuda Y, Whisstock JC. X-ray crystal structure of plasmin with tranexamic acid-derived active site inhibitors. Blood Adv. 2017 May 9;1(12):766-771. doi: 10.1182/bloodadvances.2016004150., eCollection 2017 May 9. PMID:29296720 doi:http://dx.doi.org/10.1182/bloodadvances.2016004150

5ugd, resolution 1.38Å

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