Characterization of a secreted aminopeptidase of M28 family from B. fragilis and its possible role in protein metabolism in the gut

Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the human colon have been associated with long-term intake of high-protein diets. Undigested proteins or peptides that reach the colon can be hydro...

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Published inBiochimica et biophysica acta. General subjects Vol. 1868; no. 5; p. 130598
Main Authors Kulkarni, Bhushan S., Makde, Ravindra D., Jamdar, Sahayog N.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.05.2024
Subjects
active sites
Amino Acids
Aminopeptidase
Aminopeptidases
Bacteroides fragilis
colon
domain
Endopeptidases
Escherichia coli
family
Humans
M28 family
Peptides
protein metabolism
proteinases
small intestine
soy protein
Soybean protein
species
β-Casein
β-Casein
VpAP
OPA
SgAP
Bacteroides fragilis
PaAP
M28 family
X-βNA
BfAP
EcAP
PDB
AAP
M28
LpAP
Aminopeptidase
Soybean protein
BtAP
OMVs
BsAP
Online AccessGet full text
ISSN0304-4165
1872-8006
1872-8006
DOI10.1016/j.bbagen.2024.130598

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Abstract Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the human colon have been associated with long-term intake of high-protein diets. Undigested proteins or peptides that reach the colon can be hydrolyzed by extra-cellular proteases found in some Bacteroides species into amino acids and peptides which can be further catabolized. In this communication, we have characterized one such secreted aminopeptidase (BfAP) from Bacteroides fragilis belonging to the M28 family which is capable of degrading peptides released from soybean protein after predigestion in the small intestine. The BfAP enzyme was cloned, expressed in E. coli, and purified to homogeneity. It is a metallopeptidase requiring Co2+ ion for optimum activity at 55 °C and pH 8 and preferentially cleaves neutral aliphatic (Met/Leu) and positively charged (Arg/Lys) amino acids from the N-terminus of peptides. It showed high specificity for long peptides as well as proteins like β-casein. Structural analysis of BfAP and its orthologues using AlphaFold2 reveal a shared highly conserved M28 domain, but vary with respect to their N-terminal region with some of them possessing an additional cap domain which may be important for regulation of substrate binding. Although BfAP lacks the typical cap domain, it shows small extensions that can form a loop adjacent to the proposed active site and may affect substrate binding. We suggest that this secreted enzyme may play an important role in protein metabolism in the colon where Bacteroides species are abundant. •Extracellular aminopeptidase from B. fragilis was cloned and expressed in E. coli.•It efficiently cleaves Leu, Met, Arg, and Lys residues from the N-terminus of peptides.•Processes wide range of peptides with length 3–12 amino acids long•Enzyme hydrolyzes soy-peptides released after gastrointestinal digestion.
AbstractList Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the human colon have been associated with long-term intake of high-protein diets. Undigested proteins or peptides that reach the colon can be hydrolyzed by extra-cellular proteases found in some Bacteroides species into amino acids and peptides which can be further catabolized. In this communication, we have characterized one such secreted aminopeptidase (BfAP) from Bacteroides fragilis belonging to the M28 family which is capable of degrading peptides released from soybean protein after predigestion in the small intestine. The BfAP enzyme was cloned, expressed in E. coli, and purified to homogeneity. It is a metallopeptidase requiring Co2+ ion for optimum activity at 55 °C and pH 8 and preferentially cleaves neutral aliphatic (Met/Leu) and positively charged (Arg/Lys) amino acids from the N-terminus of peptides. It showed high specificity for long peptides as well as proteins like β-casein. Structural analysis of BfAP and its orthologues using AlphaFold2 reveal a shared highly conserved M28 domain, but vary with respect to their N-terminal region with some of them possessing an additional cap domain which may be important for regulation of substrate binding. Although BfAP lacks the typical cap domain, it shows small extensions that can form a loop adjacent to the proposed active site and may affect substrate binding. We suggest that this secreted enzyme may play an important role in protein metabolism in the colon where Bacteroides species are abundant.Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the human colon have been associated with long-term intake of high-protein diets. Undigested proteins or peptides that reach the colon can be hydrolyzed by extra-cellular proteases found in some Bacteroides species into amino acids and peptides which can be further catabolized. In this communication, we have characterized one such secreted aminopeptidase (BfAP) from Bacteroides fragilis belonging to the M28 family which is capable of degrading peptides released from soybean protein after predigestion in the small intestine. The BfAP enzyme was cloned, expressed in E. coli, and purified to homogeneity. It is a metallopeptidase requiring Co2+ ion for optimum activity at 55 °C and pH 8 and preferentially cleaves neutral aliphatic (Met/Leu) and positively charged (Arg/Lys) amino acids from the N-terminus of peptides. It showed high specificity for long peptides as well as proteins like β-casein. Structural analysis of BfAP and its orthologues using AlphaFold2 reveal a shared highly conserved M28 domain, but vary with respect to their N-terminal region with some of them possessing an additional cap domain which may be important for regulation of substrate binding. Although BfAP lacks the typical cap domain, it shows small extensions that can form a loop adjacent to the proposed active site and may affect substrate binding. We suggest that this secreted enzyme may play an important role in protein metabolism in the colon where Bacteroides species are abundant.
Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the human colon have been associated with long-term intake of high-protein diets. Undigested proteins or peptides that reach the colon can be hydrolyzed by extra-cellular proteases found in some Bacteroides species into amino acids and peptides which can be further catabolized. In this communication, we have characterized one such secreted aminopeptidase (BfAP) from Bacteroides fragilis belonging to the M28 family which is capable of degrading peptides released from soybean protein after predigestion in the small intestine. The BfAP enzyme was cloned, expressed in E. coli, and purified to homogeneity. It is a metallopeptidase requiring Co²⁺ ion for optimum activity at 55 °C and pH 8 and preferentially cleaves neutral aliphatic (Met/Leu) and positively charged (Arg/Lys) amino acids from the N-terminus of peptides. It showed high specificity for long peptides as well as proteins like β-casein. Structural analysis of BfAP and its orthologues using AlphaFold2 reveal a shared highly conserved M28 domain, but vary with respect to their N-terminal region with some of them possessing an additional cap domain which may be important for regulation of substrate binding. Although BfAP lacks the typical cap domain, it shows small extensions that can form a loop adjacent to the proposed active site and may affect substrate binding. We suggest that this secreted enzyme may play an important role in protein metabolism in the colon where Bacteroides species are abundant.
Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the human colon have been associated with long-term intake of high-protein diets. Undigested proteins or peptides that reach the colon can be hydrolyzed by extra-cellular proteases found in some Bacteroides species into amino acids and peptides which can be further catabolized. In this communication, we have characterized one such secreted aminopeptidase (BfAP) from Bacteroides fragilis belonging to the M28 family which is capable of degrading peptides released from soybean protein after predigestion in the small intestine. The BfAP enzyme was cloned, expressed in E. coli, and purified to homogeneity. It is a metallopeptidase requiring Co ion for optimum activity at 55 °C and pH 8 and preferentially cleaves neutral aliphatic (Met/Leu) and positively charged (Arg/Lys) amino acids from the N-terminus of peptides. It showed high specificity for long peptides as well as proteins like β-casein. Structural analysis of BfAP and its orthologues using AlphaFold2 reveal a shared highly conserved M28 domain, but vary with respect to their N-terminal region with some of them possessing an additional cap domain which may be important for regulation of substrate binding. Although BfAP lacks the typical cap domain, it shows small extensions that can form a loop adjacent to the proposed active site and may affect substrate binding. We suggest that this secreted enzyme may play an important role in protein metabolism in the colon where Bacteroides species are abundant.
Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the human colon have been associated with long-term intake of high-protein diets. Undigested proteins or peptides that reach the colon can be hydrolyzed by extra-cellular proteases found in some Bacteroides species into amino acids and peptides which can be further catabolized. In this communication, we have characterized one such secreted aminopeptidase (BfAP) from Bacteroides fragilis belonging to the M28 family which is capable of degrading peptides released from soybean protein after predigestion in the small intestine. The BfAP enzyme was cloned, expressed in E. coli, and purified to homogeneity. It is a metallopeptidase requiring Co2+ ion for optimum activity at 55 °C and pH 8 and preferentially cleaves neutral aliphatic (Met/Leu) and positively charged (Arg/Lys) amino acids from the N-terminus of peptides. It showed high specificity for long peptides as well as proteins like β-casein. Structural analysis of BfAP and its orthologues using AlphaFold2 reveal a shared highly conserved M28 domain, but vary with respect to their N-terminal region with some of them possessing an additional cap domain which may be important for regulation of substrate binding. Although BfAP lacks the typical cap domain, it shows small extensions that can form a loop adjacent to the proposed active site and may affect substrate binding. We suggest that this secreted enzyme may play an important role in protein metabolism in the colon where Bacteroides species are abundant. •Extracellular aminopeptidase from B. fragilis was cloned and expressed in E. coli.•It efficiently cleaves Leu, Met, Arg, and Lys residues from the N-terminus of peptides.•Processes wide range of peptides with length 3–12 amino acids long•Enzyme hydrolyzes soy-peptides released after gastrointestinal digestion.
ArticleNumber 130598
Author Makde, Ravindra D.
Kulkarni, Bhushan S.
Jamdar, Sahayog N.
Author_xml – sequence: 1
  givenname: Bhushan S.
  surname: Kulkarni
  fullname: Kulkarni, Bhushan S.
  organization: Food Technology Division, Bhabha Atomic Research Centre, Mumbai 400085, India
– sequence: 2
  givenname: Ravindra D.
  surname: Makde
  fullname: Makde, Ravindra D.
  organization: Beamline Development and Application Section, Bhabha Atomic Research Centre, Mumbai 400085, India
– sequence: 3
  givenname: Sahayog N.
  surname: Jamdar
  fullname: Jamdar, Sahayog N.
  email: snjam@barc.gov.in
  organization: Food Technology Division, Bhabha Atomic Research Centre, Mumbai 400085, India
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Issue 5
Keywords β-Casein
VpAP
OPA
SgAP
Bacteroides fragilis
PaAP
M28 family
X-βNA
BfAP
EcAP
PDB
AAP
M28
LpAP
Aminopeptidase
Soybean protein
BtAP
OMVs
BsAP
Language English
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Snippet Products of microbial protein metabolism in the gut can influence the health of the host in many ways. Members of the Bacteriodales, major commensals of the...
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SubjectTerms active sites
Amino Acids
Aminopeptidase
Aminopeptidases
Bacteroides fragilis
colon
domain
Endopeptidases
Escherichia coli
family
Humans
M28 family
Peptides
protein metabolism
proteinases
small intestine
soy protein
Soybean protein
species
β-Casein
Title Characterization of a secreted aminopeptidase of M28 family from B. fragilis and its possible role in protein metabolism in the gut
URI https://dx.doi.org/10.1016/j.bbagen.2024.130598
https://www.ncbi.nlm.nih.gov/pubmed/38499114
https://www.proquest.com/docview/2968921570
https://www.proquest.com/docview/3153776868
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