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SPPV14

1 The SPPV14
2 Structure and Function
3 Interactions with Bax
4 Interactions with Hrk
5 Conclusion

The SPPV14

The elimination of infected cells through programmed cell death (apoptosis) is the most common response against infectious agents, acting as a primary defense mechanism. In order to prevail in face of such mechanisms, several viruses express inhibitors that prevent apoptosis, combating the host's innate defenses. Sheeppox virus expresses SPPV14, an inhibitor that intervenes in the pro- or anti-apoptotic pathways mediated by the Bcl-2 protein family, exhibiting a high inhibitory capacity for apoptosis in virus-infected cells. Unlike most viral strategies, which target the production of Bcl-2 homologs (anti-apoptotic)^[1], SPPV14 is a potent inhibitor of Hrk, Bax and Bak (pro-apoptotic)^[2]. This protein shares high similarity with DPV022 (deerpox), which is structurally the closest to SPPV14.

Structure and Function

In the crystal structures of SPPV14 bound to BH3 peptide motifs, it is observed that SPPV14 is a monomeric structure. The possibility of it being a homodimer in a cellular context cannot be excluded, but the data show that its active form is monomeric. SPPV14 is a prosurvival protein that utilizes the canonical ligand-binding grove to engage BH3 motif peptides of proapoptotic Bcl-2 proteins^[2]. binds to through specific interactions, which are essential for the formation of the heterodimeric complex AB between SPPV14 and the BH3 peptide.

SPPV14 has a globular form, consisting of a surrounded by , thus forming the classical structure and fold of Bcl-2. is formed by the Ⲁ2-Ⲁ5 helices. The action of the SPPV14 is by sequestering BH3-only proteins including Bim, Bid, Bmf, Hrk, and Puma as well as Bak and Bax; SPPV14 strongly binds with Hrk and Bax, and the interactions are primarily mediated by the 4 (in grey) present in SPPV14, as well as numerous ionic interactions and hydrogen bonds^[1].

Interactions with Bax

The interaction between SPPV14 and Bax relies on hydrophobic interactions as well as hydrogen bonds. The conserved Leu59, Leu63, Ile66, and Leu70 from Bax fit into the corresponding four hydrophobic pockets of the SPPV14-binding groove. Moreover, the M74 (in pink) occupies a fifth pocket formed by residues Cys38, Val41, Ile42, Phe133, and Asn137 (in blue) of SPPV14-binding groove, in addition to the four canonical hydrophobic residues. between the hydroxyl group of SPPV14 Ser81 and the lysyl group of Bax Lys64 are also observed, and another between the main chain carbonyl of SPPV14 Ile74 and the hydroxyl group of Bax Ser60^[2].

Interactions with Hrk

For Hrk, the interaction with SPPV14 occurs in the canonical ligand-binding groove, engaging Hrk BH3. The three conserved hydrophobic residues Leu37, Ile40 and Leu44 as well as Thr35 from Hrk protrude into the SPPV14-binding groove and engage the resident four hydrophobic pockets. In addition to these hydrophobic interactions, SPPV14 forms an with Hrk via SPPV14 Arg84 and Hrk Asp42 carboxyl group. Furthermore, a is observed between SPPV14 Tyr46 hydroxyl and Hrk Glu43 carboxyl and SPPV14 and between Thr78 hydroxyl with Hrk Ala34. Hrk is predicted to be an intrinsically unfolded protein, and thus, the BH3 motif interactions observed with SPPV14 are likely to be recapitulated in the full context of the protein. It’s also seen the presence of a between the SPPV14 Arg84 and Hrk Asp42 that mimics other salt bridges interaction that happens in many prosurvival Bcl-2 protein:BH3 motifs.

Conclusion

SPPV14 plays a crucial role in the strategy of the sheep pox virus to evade apoptosis, one of the host's primary defense mechanisms. Acting as a potent inhibitor of pro-apoptotic proteins Hrk, Bax, and Bak, SPPV14 prevents programmed cell death, favoring the survival of infected cells and, consequently, the virus itself.

The monomeric structure of SPPV14, capable of binding to BH3 peptides, highlights its efficiency in forming stable complexes that neutralize the apoptotic response. This protein, which bears high similarity to DPV022 from the deer pox virus, exemplifies a sophisticated viral strategy of adaptation and evasion of cellular defenses.

Therefore, SPPV14 is a key component in the sheep pox virus's ability to persist in the host organism, illustrating how viruses can evolve specific mechanisms to manipulate critical cellular processes and ensure their propagation.

References

↑ ^1.0 ^1.1 Okamoto T, Campbell S, Mehta N, Thibault J, Colman PM, Barry M, Huang DC, Kvansakul M. Sheeppox virus SPPV14 encodes a Bcl-2-like cell death inhibitor that counters a distinct set of mammalian proapoptotic proteins. J Virol. 2012 Nov;86(21):11501-11. PMID:22896610 doi:10.1128/JVI.01115-12
↑ ^2.0 ^2.1 ^2.2 Suraweera CD, Burton DR, Hinds MG, Kvansakul M. Crystal structures of the sheeppox virus encoded inhibitor of apoptosis SPPV14 bound to the proapoptotic BH3 peptides Hrk and Bax. FEBS Lett. 2020 Jun;594(12):2016-2026. PMID:32390192 doi:10.1002/1873-3468.13807

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Demétrio Speckhort

Retrieved from "http://52.214.119.220/wiki/index.php/User:Dem%C3%A9trio_Speckhort/Sandbox_1"

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@@ Line 1: / Line 1: @@
 ==SPPV14==
-<StructureSection load='6xy4' size='340' side='right' caption='Caption for this structure' scene='10/1050292/6xy4/1'>
+<StructureSection load='6xy4' size='360' side='right' caption='Caption for this structure' scene='10/1050292/6xy4/1'>
-This is a default text for your page '''Demétrio Speckhort/Sandbox 1'''. Click above on '''edit this page''' to modify. Be careful with the &lt; and &gt; signs.
-You may include any references to papers as in: the use of JSmol in Proteopedia <ref>DOI 10.1002/ijch.201300024</ref> or to the article describing Jmol <ref>PMID:21638687</ref> to the rescue.
 == The SPPV14 ==
-The elimination of infected cells through programmed cell death (apoptosis) is the most common response against infectious agents, acting as a primary defense mechanism. In order to prevail in face of such mechanisms, several viruses express inhibitors that prevent apoptosis, combating the host's innate defenses. Sheeppox virus expresses '''SPPV14''', an inhibitor that intervenes in the pro- or anti-apoptotic pathways mediated by the '''Bcl-2 protein family''', exhibiting a high inhibitory capacity for apoptosis in virus-infected cells. Unlike most viral strategies, which target the production of Bcl-2 homologs (anti-apoptotic)<ref name=Okamoto>DOI 10.1128/jvi.01115-12</ref>, SPPV14 is a potent inhibitor of '''Hrk''', '''Bax''' and '''Bak (pro-apoptotic)'''<ref>DOI 10.1002/1873-3468.13807</ref>. This protein shares high similarity with DPV022 (deerpox), which is structurally the closest to SPPV14.
+The elimination of infected cells through programmed cell death (apoptosis) is the most common response against infectious agents, acting as a primary defense mechanism. In order to prevail in face of such mechanisms, several viruses express inhibitors that prevent apoptosis, combating the host's innate defenses. [https://en.wikipedia.org/wiki/Sheeppox '''Sheeppox virus'''] expresses '''SPPV14''', an inhibitor that intervenes in the pro- or anti-apoptotic pathways mediated by the [https://en.wikipedia.org/wiki/Bcl-2_family Bcl-2 protein family], exhibiting a high inhibitory capacity for apoptosis in virus-infected cells. Unlike most viral strategies, which target the production of Bcl-2 homologs (anti-apoptotic)<ref name=Okamoto>PMID 22896610</ref>, SPPV14 is a potent inhibitor of [https://en.wikipedia.org/wiki/HRK_(gene) Hrk], [https://en.wikipedia.org/wiki/Apoptosis_regulator_BAX Bax] and [https://en.wikipedia.org/wiki/Bcl-2_homologous_antagonist_killer Bak] (pro-apoptotic)<ref name=Suraweera>DOI 10.1002/1873-3468.13807</ref>. This protein shares high similarity with DPV022 (deerpox), which is structurally the closest to SPPV14.
-== Structure ==
+== Structure and Function==
-In the crystal structures of SPPV14 bound to BH3 peptide motifs, it is observed that SPPV14 is a monomeric structure. The possibility of it being a homodimer in a cellular context cannot be excluded, but the data show that its active form is monomeric. SPPV14 is a prosurvival protein that utilizes the  canonical ligand-binding grove to engage BH3 motif peptides of proapoptotic Bcl-2 proteins<ref>DOI 10.1002/1873-3468.13807</ref>. <scene name='10/1050292/Chain_a/3'>The A chain of the SPPV14 protein</scene> binds to <scene name='10/1050292/Chain_b/2'>the B chain of the BH3 peptide</scene> through specific interactions, which are essential for the formation of the heterodimeric complex AB between SPPV14 and the BH3 peptide.
+In the crystal structures of SPPV14 bound to BH3 peptide motifs, it is observed that SPPV14 is a monomeric structure. The possibility of it being a homodimer in a cellular context cannot be excluded, but the data show that its active form is monomeric. SPPV14 is a prosurvival protein that utilizes the  canonical ligand-binding grove to engage BH3 motif peptides of proapoptotic Bcl-2 proteins<ref name=Suraweera>DOI 10.1002/1873-3468.13807</ref>. <scene name='10/1050292/Chain_a/3'>The A chain of the SPPV14 protein</scene> binds to <scene name='10/1050292/Chain_b/2'>the B chain of the BH3 peptide</scene> through specific interactions, which are essential for the formation of the heterodimeric complex AB between SPPV14 and the BH3 peptide.
-SPPV14 has a globular form, consisting of a <scene name='10/1050292/Chain_a_-_alfa-5_helix/2'>central helix (Ⲁ-5)</scene> surrounded by <scene name='10/1050292/Six_other_helices/1'>six other helices</scene>, thus forming the classical structure and fold of Bcl-2.
-== Function ==
+SPPV14 has a globular form, consisting of a <scene name='10/1050292/Chain_a_-_alfa-5_helix/2'>central helix (Ⲁ-5)</scene> surrounded by <scene name='10/1050292/Six_other_helices/1'>six other helices</scene>, thus forming the classical structure and fold of Bcl-2. <scene name='10/1050292/Canonicalbindingsite_sppv14/1'>The canonical binding site of SPPV14</scene> is formed by the Ⲁ2-Ⲁ5 helices. The action of the SPPV14 is by sequestering BH3-only proteins including Bim, Bid, Bmf, Hrk, and Puma as well as Bak and Bax; SPPV14 strongly binds with Hrk and Bax, and the interactions are primarily mediated by the 4 <scene name='10/1050292/Hydrophobicityofchaina/1'>hydrophobic canonical sites</scene> (in <font color='grey'><b>grey</b></font>) present in SPPV14, as well as numerous ionic interactions and hydrogen bonds<ref name=Okamoto>DPMID 22896610</ref>.
-The canonical binding site of SPPV14 is formed by the Ⲁ2-Ⲁ5 helices. The action of the SPPV14 is by sequestering BH3-only proteins including Bim, Bid, Bmf, Hrk, and Puma as well as Bak and Bax; SPPV14 strongly binds with Hrk and Bax, and the interactions are primarily mediated by the 4 hydrophobic canonical sites present in SPPV14, as well as numerous ionic interactions and hydrogen bonds. Unlike other vBcl-2, SPPV14 forms ionic interactions using R84 with Hrk D42 or with Bax D68, reminiscent of a highly conserved ionic bond between Arg in the BH1 region, pro-survival motif of mammals, and the Bcl-2 protein that retains the Asp of the functional BH3 motif<ref name=Okamoto>DOI 10.1002/1873-3468.13807</ref>.
+==Interactions with Bax==
+The interaction between SPPV14 and Bax relies on hydrophobic interactions as well as hydrogen bonds. The conserved <scene name='10/1050292/1/3'>hydrophobic residues</scene> Leu59, Leu63, Ile66, and Leu70 from Bax fit into the corresponding four hydrophobic pockets of the SPPV14-binding groove. Moreover, the <scene name='10/1050292/2/2'>Bax residue</scene> M74 (in <font color='fuchsia'><b>pink</b></font>) occupies a fifth pocket formed by residues Cys38, Val41, Ile42, Phe133, and Asn137 (in <font color='blue'><b>blue</b></font>) of SPPV14-binding groove, in addition to the four canonical hydrophobic residues. <scene name='10/1050292/3/1'>Hydrogen bond</scene> between the hydroxyl group of SPPV14 Ser81 and the lysyl group of Bax Lys64 are also observed, and another <scene name='10/1050292/4/1'>hydrogen bond</scene> between the main chain carbonyl of SPPV14 Ile74 and the hydroxyl group of Bax Ser60<ref name=Suraweera>DOI 10.1002/1873-3468.13807</ref>.
+==Interactions with Hrk==
+For Hrk, the interaction with SPPV14 occurs in the canonical ligand-binding groove, engaging Hrk BH3. The three conserved hydrophobic residues Leu37, Ile40 and Leu44 as well as Thr35 from Hrk protrude into the SPPV14-binding groove and engage the resident four hydrophobic pockets. In addition to these hydrophobic interactions, SPPV14 forms an <scene name='10/1050292/Hrkionic/1'>ionic interaction</scene> with Hrk via SPPV14 Arg84 and Hrk Asp42 carboxyl group. Furthermore, a <scene name='10/1050292/Hrkhydrogen1/1'>hydrogen bond</scene> is observed between SPPV14 Tyr46 hydroxyl and Hrk Glu43 carboxyl and SPPV14 and <scene name='10/1050292/Hrkhydrogen2/1'>another one</scene> between Thr78 hydroxyl with Hrk Ala34. Hrk is predicted to be an intrinsically unfolded protein, and thus, the BH3 motif interactions observed with SPPV14 are likely to be recapitulated in the full context of the protein. It’s also seen the presence of a <scene name='10/1050292/Slatbridge/1'>salt bridge</scene> between the SPPV14 Arg84 and Hrk Asp42 that mimics other salt bridges interaction that happens in many prosurvival Bcl-2 protein:BH3 motifs.
+==Conclusion==
+SPPV14 plays a crucial role in the strategy of the sheep pox virus to evade apoptosis, one of the host's primary defense mechanisms. Acting as a potent inhibitor of pro-apoptotic proteins Hrk, Bax, and Bak, SPPV14 prevents programmed cell death, favoring the survival of infected cells and, consequently, the virus itself.
+The monomeric structure of SPPV14, capable of binding to BH3 peptides, highlights its efficiency in forming stable complexes that neutralize the apoptotic response. This protein, which bears high similarity to DPV022 from the deer pox virus, exemplifies a sophisticated viral strategy of adaptation and evasion of cellular defenses.
+Therefore, SPPV14 is a key component in the sheep pox virus's ability to persist in the host organism, illustrating how viruses can evolve specific mechanisms to manipulate critical cellular processes and ensure their propagation.
 </StructureSection>
 == References ==
 {{Reflist}}
 <references/>
+[[Category:Topic Page]]

User:Demétrio Speckhort/Sandbox 1

From Proteopedia

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SPPV14

Contents

The SPPV14

Structure and Function

Interactions with Bax

Interactions with Hrk

Conclusion

References

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