Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon
Recently, the superfamily of animal, extracellular, pyrimidine-specific RNases, often called the RNase A superfamily, has been shown to include not only tetrapod enzymes, but also fish enzymes [1]. In particular, five RNases from zebrafish (Danio rerio) [1-3] and two from the Atlantic salmon (Salmo...
| Main Authors: | , , , , , , |
|---|---|
| Other Authors: | , , , , , , , |
| Format: | Conference Object |
| Language: | English |
| Published: |
Società chimica italiana
2011
|
| Subjects: | |
| Online Access: | http://hdl.handle.net/11588/451561 http://www.sci2011.unisalento.it/ |
| id |
ftunivnapoliiris:oai:www.iris.unina.it:11588/451561 |
|---|---|
| record_format |
openpolar |
| spelling |
ftunivnapoliiris:oai:www.iris.unina.it:11588/451561 2024-09-09T19:30:41+00:00 Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon MERLINO, ANTONELLO RUSSO KRAUSS, IRENE PIZZO, ELIODORO SICA, FILOMENA C. Carluccio G. D’Alessio L. Mazzarella Società Chimica Italiana Merlino, Antonello RUSSO KRAUSS, Irene C., Carluccio Pizzo, Eliodoro G., D’Alessio L., Mazzarella Sica, Filomena 2011 ELETTRONICO http://hdl.handle.net/11588/451561 http://www.sci2011.unisalento.it/ eng eng Società chimica italiana country:ITA place:Lecce ispartofbook:Book abstract XXIV Congresso Nazionale della Società Chimica Italiana firstpage:529 lastpage:529 numberofpages:1 http://hdl.handle.net/11588/451561 http://www.sci2011.unisalento.it/ X-ray structure RNase autoinhibition processe protein structure evolution info:eu-repo/semantics/conferencePaper 2011 ftunivnapoliiris 2024-06-17T15:19:27Z Recently, the superfamily of animal, extracellular, pyrimidine-specific RNases, often called the RNase A superfamily, has been shown to include not only tetrapod enzymes, but also fish enzymes [1]. In particular, five RNases from zebrafish (Danio rerio) [1-3] and two from the Atlantic salmon (Salmo salar) [4] have been reported to have a very low RNase activity and to be endowed, like RNase 5 (human angiogenin), with powerful angiogenic activity. We have determined the X-ray structure of two zebrafish RNases [3]. In these proteins, like in human angiogenin, the putative binding subsite B1 of the pyrimidine base is partially obstructed by the side chain of Glu located in the C-terminal segment of the protein, and this structural feature well account for their low catalytic activity. More recently, the crystal structure of RNase-2 from Salmo salar (Ss2) has been also determined. Surprisingly, within an essentially unmodified RNase folding, the enzyme presents an extensive reorganization of the active site region with respect to other pancreatic RNases. In particular, although it has the highest catalytic activity among fish RNases, it presents an active site fully obstructed by a peptide segment at C-terminal region (CTR), and with the two catalytic histidines in direct contact. Thus the enzyme appears to be auto-inhibited in a completely different manner compared to the other angiogenins. Comparison of the structure of Ss2 with those of RNase complexes with substrate analogs suggests that Ss2 could adopt two distinct conformations: a closed form with the CTR blocking the substrate binding cleft (observed in the crystal structure) and an open conformation, where the CTR swings out forming an open cleft with the active site exposed. Overall, these data provide novel structural insights into the mechanism that modulates RNase activity of angiogenins. [1] E. Pizzo, P. Buonanno, A. Di Maro, S. Ponticelli, S. De Falco, N. Quarto, M.V. Cubellis and G. D'Alessio, J Biol Chem, 281, 2006, 27454. [2] S. Cho and J. Zhang, ... Conference Object Atlantic salmon Salmo salar IRIS Università degli Studi di Napoli Federico II |
| institution |
Open Polar |
| collection |
IRIS Università degli Studi di Napoli Federico II |
| op_collection_id |
ftunivnapoliiris |
| language |
English |
| topic |
X-ray structure RNase autoinhibition processe protein structure evolution |
| spellingShingle |
X-ray structure RNase autoinhibition processe protein structure evolution MERLINO, ANTONELLO RUSSO KRAUSS, IRENE PIZZO, ELIODORO SICA, FILOMENA C. Carluccio G. D’Alessio L. Mazzarella Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon |
| topic_facet |
X-ray structure RNase autoinhibition processe protein structure evolution |
| description |
Recently, the superfamily of animal, extracellular, pyrimidine-specific RNases, often called the RNase A superfamily, has been shown to include not only tetrapod enzymes, but also fish enzymes [1]. In particular, five RNases from zebrafish (Danio rerio) [1-3] and two from the Atlantic salmon (Salmo salar) [4] have been reported to have a very low RNase activity and to be endowed, like RNase 5 (human angiogenin), with powerful angiogenic activity. We have determined the X-ray structure of two zebrafish RNases [3]. In these proteins, like in human angiogenin, the putative binding subsite B1 of the pyrimidine base is partially obstructed by the side chain of Glu located in the C-terminal segment of the protein, and this structural feature well account for their low catalytic activity. More recently, the crystal structure of RNase-2 from Salmo salar (Ss2) has been also determined. Surprisingly, within an essentially unmodified RNase folding, the enzyme presents an extensive reorganization of the active site region with respect to other pancreatic RNases. In particular, although it has the highest catalytic activity among fish RNases, it presents an active site fully obstructed by a peptide segment at C-terminal region (CTR), and with the two catalytic histidines in direct contact. Thus the enzyme appears to be auto-inhibited in a completely different manner compared to the other angiogenins. Comparison of the structure of Ss2 with those of RNase complexes with substrate analogs suggests that Ss2 could adopt two distinct conformations: a closed form with the CTR blocking the substrate binding cleft (observed in the crystal structure) and an open conformation, where the CTR swings out forming an open cleft with the active site exposed. Overall, these data provide novel structural insights into the mechanism that modulates RNase activity of angiogenins. [1] E. Pizzo, P. Buonanno, A. Di Maro, S. Ponticelli, S. De Falco, N. Quarto, M.V. Cubellis and G. D'Alessio, J Biol Chem, 281, 2006, 27454. [2] S. Cho and J. Zhang, ... |
| author2 |
Società Chimica Italiana Merlino, Antonello RUSSO KRAUSS, Irene C., Carluccio Pizzo, Eliodoro G., D’Alessio L., Mazzarella Sica, Filomena |
| format |
Conference Object |
| author |
MERLINO, ANTONELLO RUSSO KRAUSS, IRENE PIZZO, ELIODORO SICA, FILOMENA C. Carluccio G. D’Alessio L. Mazzarella |
| author_facet |
MERLINO, ANTONELLO RUSSO KRAUSS, IRENE PIZZO, ELIODORO SICA, FILOMENA C. Carluccio G. D’Alessio L. Mazzarella |
| author_sort |
MERLINO, ANTONELLO |
| title |
Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon |
| title_short |
Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon |
| title_full |
Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon |
| title_fullStr |
Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon |
| title_full_unstemmed |
Autoinhibition of angiogenins: insights from the X-ray structure of RNase 2 from Atlantic salmon |
| title_sort |
autoinhibition of angiogenins: insights from the x-ray structure of rnase 2 from atlantic salmon |
| publisher |
Società chimica italiana |
| publishDate |
2011 |
| url |
http://hdl.handle.net/11588/451561 http://www.sci2011.unisalento.it/ |
| genre |
Atlantic salmon Salmo salar |
| genre_facet |
Atlantic salmon Salmo salar |
| op_relation |
ispartofbook:Book abstract XXIV Congresso Nazionale della Società Chimica Italiana firstpage:529 lastpage:529 numberofpages:1 http://hdl.handle.net/11588/451561 http://www.sci2011.unisalento.it/ |
| _version_ |
1809899669951610880 |