Synthetic peptides derived from the C-terminal 6kDa region of Plasmodium falciparum SERA5 inhibit the enzyme activity and malaria parasite development

Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed a...

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Published inBiochimica et biophysica acta Vol. 1840; no. 9; pp. 2765 - 2775
Main Authors Kanodia, Shivani, Kumar, Gautam, Rizzi, Luca, Pedretti, Alessandro, Hodder, Anthony N., Romeo, Sergio, Malhotra, Pawan
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.09.2014
Subjects
active sites
antigens
Antigens, Protozoan - genetics
Antigens, Protozoan - metabolism
antimalarials
blood
cysteine
cysteine proteinases
enzyme activity
Enzyme kinetics
Erythrocytes - metabolism
Erythrocytes - parasitology
Humans
malaria
Malaria, Falciparum - drug therapy
Malaria, Falciparum - enzymology
Malaria, Falciparum - genetics
merozoites
molecular models
parasites
Peptide synthesis
Peptides - chemistry
Peptides - pharmacology
Plasmodium
Plasmodium falciparum
Plasmodium falciparum - enzymology
Plasmodium falciparum - genetics
Protein Structure, Tertiary
Proteolysis
recombinant proteins
serine
Site directed mutagenesis
synthetic peptides
vaccines
hpi
Plasmodium
SUB1
SERA
Site directed mutagenesis
kDa
Peptide synthesis
Enzyme kinetics
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Abstract Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed as vaccine candidate antigen. Although PfSERA5 belongs to papain-like cysteine protease family, its catalytic domain has a serine in place of cysteine at the active site. In the present study, we synthesized a number of peptides from the N- and C-terminal regions of PfSERA5 active domain and evaluated their inhibitory potential. The final proteolytic step of PfSERA5 involves removal of a C-terminal ~6kDa fragment that results in the generation of a catalytically active ~50kDa enzyme. In the present study, we demonstrate that two of the peptides derived from the C-terminal ~6kDa region inhibit the parasite growth and also cause a delay in the parasite development. These peptides reduced the enzyme activity of the recombinant protein and co-localized with the PfSERA5 protein within the parasite, thereby indicating the specific inhibition of PfSERA5 activity. Molecular docking studies revealed that the inhibitory peptides interact with the active site of the protein. Interestingly, the peptides did not have an effect on the processing of PfSERA5. Our observations indicate the temporal regulation of the final proteolytic cleavage step that occurs just prior to egress. These results reinforce the role of PfSERA5 for the intra-erythrocytic development of malaria parasite and show the role of carboxy terminal ~6kDa fragments in the regulation of PfSERA5 activity. The results also suggest that final cleavage step of PfSERA5 can be targeted for the development of new anti-malarials. [Display omitted] •P. falciparum SERA5 plays an essential role in merozoite egress and invasion.•Inhibitory potential of peptides derived from regions of PfSERA5 was evaluated.•Results indicate the temporal regulation of the final proteolytic cleavage step.•PfSERA5 can be targeted for the development of new anti-malarials.
AbstractList Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed as vaccine candidate antigen. Although PfSERA5 belongs to papain-like cysteine protease family, its catalytic domain has a serine in place of cysteine at the active site.BACKGROUNDPlasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed as vaccine candidate antigen. Although PfSERA5 belongs to papain-like cysteine protease family, its catalytic domain has a serine in place of cysteine at the active site.In the present study, we synthesized a number of peptides from the N- and C-terminal regions of PfSERA5 active domain and evaluated their inhibitory potential.METHODSIn the present study, we synthesized a number of peptides from the N- and C-terminal regions of PfSERA5 active domain and evaluated their inhibitory potential.The final proteolytic step of PfSERA5 involves removal of a C-terminal ~6kDa fragment that results in the generation of a catalytically active ~50kDa enzyme. In the present study, we demonstrate that two of the peptides derived from the C-terminal ~6kDa region inhibit the parasite growth and also cause a delay in the parasite development. These peptides reduced the enzyme activity of the recombinant protein and co-localized with the PfSERA5 protein within the parasite, thereby indicating the specific inhibition of PfSERA5 activity. Molecular docking studies revealed that the inhibitory peptides interact with the active site of the protein. Interestingly, the peptides did not have an effect on the processing of PfSERA5.RESULTSThe final proteolytic step of PfSERA5 involves removal of a C-terminal ~6kDa fragment that results in the generation of a catalytically active ~50kDa enzyme. In the present study, we demonstrate that two of the peptides derived from the C-terminal ~6kDa region inhibit the parasite growth and also cause a delay in the parasite development. These peptides reduced the enzyme activity of the recombinant protein and co-localized with the PfSERA5 protein within the parasite, thereby indicating the specific inhibition of PfSERA5 activity. Molecular docking studies revealed that the inhibitory peptides interact with the active site of the protein. Interestingly, the peptides did not have an effect on the processing of PfSERA5.Our observations indicate the temporal regulation of the final proteolytic cleavage step that occurs just prior to egress.CONCLUSIONSOur observations indicate the temporal regulation of the final proteolytic cleavage step that occurs just prior to egress.These results reinforce the role of PfSERA5 for the intra-erythrocytic development of malaria parasite and show the role of carboxy terminal ~6kDa fragments in the regulation of PfSERA5 activity. The results also suggest that final cleavage step of PfSERA5 can be targeted for the development of new anti-malarials.GENERAL SIGNIFICANCEThese results reinforce the role of PfSERA5 for the intra-erythrocytic development of malaria parasite and show the role of carboxy terminal ~6kDa fragments in the regulation of PfSERA5 activity. The results also suggest that final cleavage step of PfSERA5 can be targeted for the development of new anti-malarials.
Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed as vaccine candidate antigen. Although PfSERA5 belongs to papain-like cysteine protease family, its catalytic domain has a serine in place of cysteine at the active site. In the present study, we synthesized a number of peptides from the N- and C-terminal regions of PfSERA5 active domain and evaluated their inhibitory potential. The final proteolytic step of PfSERA5 involves removal of a C-terminal ~6kDa fragment that results in the generation of a catalytically active ~50kDa enzyme. In the present study, we demonstrate that two of the peptides derived from the C-terminal ~6kDa region inhibit the parasite growth and also cause a delay in the parasite development. These peptides reduced the enzyme activity of the recombinant protein and co-localized with the PfSERA5 protein within the parasite, thereby indicating the specific inhibition of PfSERA5 activity. Molecular docking studies revealed that the inhibitory peptides interact with the active site of the protein. Interestingly, the peptides did not have an effect on the processing of PfSERA5. Our observations indicate the temporal regulation of the final proteolytic cleavage step that occurs just prior to egress. These results reinforce the role of PfSERA5 for the intra-erythrocytic development of malaria parasite and show the role of carboxy terminal ~6kDa fragments in the regulation of PfSERA5 activity. The results also suggest that final cleavage step of PfSERA5 can be targeted for the development of new anti-malarials. [Display omitted] •P. falciparum SERA5 plays an essential role in merozoite egress and invasion.•Inhibitory potential of peptides derived from regions of PfSERA5 was evaluated.•Results indicate the temporal regulation of the final proteolytic cleavage step.•PfSERA5 can be targeted for the development of new anti-malarials.
Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed as vaccine candidate antigen. Although PfSERA5 belongs to papain-like cysteine protease family, its catalytic domain has a serine in place of cysteine at the active site. In the present study, we synthesized a number of peptides from the N- and C-terminal regions of PfSERA5 active domain and evaluated their inhibitory potential. The final proteolytic step of PfSERA5 involves removal of a C-terminal ~6kDa fragment that results in the generation of a catalytically active ~50kDa enzyme. In the present study, we demonstrate that two of the peptides derived from the C-terminal ~6kDa region inhibit the parasite growth and also cause a delay in the parasite development. These peptides reduced the enzyme activity of the recombinant protein and co-localized with the PfSERA5 protein within the parasite, thereby indicating the specific inhibition of PfSERA5 activity. Molecular docking studies revealed that the inhibitory peptides interact with the active site of the protein. Interestingly, the peptides did not have an effect on the processing of PfSERA5. Our observations indicate the temporal regulation of the final proteolytic cleavage step that occurs just prior to egress. These results reinforce the role of PfSERA5 for the intra-erythrocytic development of malaria parasite and show the role of carboxy terminal ~6kDa fragments in the regulation of PfSERA5 activity. The results also suggest that final cleavage step of PfSERA5 can be targeted for the development of new anti-malarials.
Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The native protein undergoes extensive proteolytic cleavage that appears to be tightly regulated. PfSERA5 N-terminal fragment is being developed as vaccine candidate antigen. Although PfSERA5 belongs to papain-like cysteine protease family, its catalytic domain has a serine in place of cysteine at the active site.In the present study, we synthesized a number of peptides from the N- and C-terminal regions of PfSERA5 active domain and evaluated their inhibitory potential.The final proteolytic step of PfSERA5 involves removal of a C-terminal ~6kDa fragment that results in the generation of a catalytically active ~50kDa enzyme. In the present study, we demonstrate that two of the peptides derived from the C-terminal ~6kDa region inhibit the parasite growth and also cause a delay in the parasite development. These peptides reduced the enzyme activity of the recombinant protein and co-localized with the PfSERA5 protein within the parasite, thereby indicating the specific inhibition of PfSERA5 activity. Molecular docking studies revealed that the inhibitory peptides interact with the active site of the protein. Interestingly, the peptides did not have an effect on the processing of PfSERA5.Our observations indicate the temporal regulation of the final proteolytic cleavage step that occurs just prior to egress.These results reinforce the role of PfSERA5 for the intra-erythrocytic development of malaria parasite and show the role of carboxy terminal ~6kDa fragments in the regulation of PfSERA5 activity. The results also suggest that final cleavage step of PfSERA5 can be targeted for the development of new anti-malarials.
Author Malhotra, Pawan
Pedretti, Alessandro
Kanodia, Shivani
Rizzi, Luca
Hodder, Anthony N.
Kumar, Gautam
Romeo, Sergio
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Keywords hpi
Plasmodium
SUB1
SERA
Site directed mutagenesis
kDa
Peptide synthesis
Enzyme kinetics
Language English
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Snippet Plasmodium falciparum serine repeat antigen 5 (PfSERA5) is an abundant blood stage protein that plays an essential role in merozoite egress and invasion. The...
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SubjectTerms active sites
antigens
Antigens, Protozoan - genetics
Antigens, Protozoan - metabolism
antimalarials
blood
cysteine
cysteine proteinases
enzyme activity
Enzyme kinetics
Erythrocytes - metabolism
Erythrocytes - parasitology
Humans
malaria
Malaria, Falciparum - drug therapy
Malaria, Falciparum - enzymology
Malaria, Falciparum - genetics
merozoites
molecular models
parasites
Peptide synthesis
Peptides - chemistry
Peptides - pharmacology
Plasmodium
Plasmodium falciparum
Plasmodium falciparum - enzymology
Plasmodium falciparum - genetics
Protein Structure, Tertiary
Proteolysis
recombinant proteins
serine
Site directed mutagenesis
synthetic peptides
vaccines
Title Synthetic peptides derived from the C-terminal 6kDa region of Plasmodium falciparum SERA5 inhibit the enzyme activity and malaria parasite development
URI https://dx.doi.org/10.1016/j.bbagen.2014.04.013
https://www.ncbi.nlm.nih.gov/pubmed/24769454
https://www.proquest.com/docview/1552370056
https://www.proquest.com/docview/2000228912
Volume 1840
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