Heme binding to human alpha-1 proteinase inhibitor

Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in vivo. Due to its potential toxicity, heme binding to plasma proteins is an important safety issue in regard to protein therapeutics derived fr...

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Published in	Biochimica et biophysica acta Vol. 1820; no. 12; pp. 2020 - 2029
Main Authors	Karnaukhova, Elena, Krupnikova, Sonia Silinsky, Rajabi, Mohsen, Alayash, Abdu I.
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.12.2012
Subjects	albumins alpha 1-Antitrypsin - chemistry alpha 1-Antitrypsin - metabolism Alpha-1 proteinase inhibitor Bilirubin Bilirubin - chemistry Bilirubin - metabolism binding proteins blood Carrier Proteins - chemistry Carrier Proteins - metabolism Circular Dichroism fluorescence haptoglobins Haptoglobins - chemistry Haptoglobins - metabolism Heme Heme - chemistry Heme - metabolism Hemeproteins - chemistry Hemeproteins - metabolism Humans iron Protein Conformation proteinase inhibitors Protoporphyrin Protoporphyrins - chemistry Protoporphyrins - metabolism Spectrophotometry, Ultraviolet spectroscopy Surface Plasmon Resonance therapeutics toxicity Trypsin Inhibitors - chemistry Trypsin Inhibitors - metabolism PBS Alpha-1 proteinase inhibitor CD Hp PPIX Bilirubin L/P Circular dichroism BR Protoporphyrin SPR Heme HA Surface plasmon resonance α1-PI
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Abstract	Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in vivo. Due to its potential toxicity, heme binding to plasma proteins is an important safety issue in regard to protein therapeutics derived from human blood. While heme binding by hemopexin, albumin and α1-microglobulin has been extensively studied, the role of other plasma proteins remains largely unknown. We examined two acute-phase plasma proteins, haptoglobin (Hp) and alpha-1 proteinase inhibitor (α1-PI) for possible interactions with heme and bilirubin (BR), the final product of heme degradation, using various techniques: UV/Vis spectroscopy, fluorescence, circular dichroism (CD), and surface plasmon resonance (SPR). According to our data, Hp exhibits a very weak association with both heme and BR; α1-PI's affinity to BR is also very low. However, α1-PI's affinity to heme (KD 2.0×10−8M) is of the same order of magnitude as that of albumin (1.26×10−8M). The data for α1-PI binding with protoporphyrin IX (PPIX) suggest that the elimination of the iron atom from the porphyrin structure results in almost 350-fold lower affinity (KD 6.93×10−6M), thus indicating that iron is essential for the heme coordination with the α1-PI. This work demonstrates for the first time that human α1-PI is a heme binding protein with an affinity to heme comparable to that of albumin. Our data may have important implications for safety and efficacy of plasma protein therapeutics. ► A role of non-traditional plasma heme scavengers is evaluated. ► Human α1-PI and Hp are examined for binding with heme, PPIX and BR. ► Methods include UV/Vis, fluorescence, SPR, CD and functional assays. ► This study for the first time defines human α1-PI as a heme binding protein. ► Affinity of α1-PI to heme is of the same order of magnitude as that of albumin.
AbstractList	BACKGROUND: Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in vivo. Due to its potential toxicity, heme binding to plasma proteins is an important safety issue in regard to protein therapeutics derived from human blood. While heme binding by hemopexin, albumin and α₁-microglobulin has been extensively studied, the role of other plasma proteins remains largely unknown. METHODS: We examined two acute-phase plasma proteins, haptoglobin (Hp) and alpha-1 proteinase inhibitor (α₁-PI) for possible interactions with heme and bilirubin (BR), the final product of heme degradation, using various techniques: UV/Vis spectroscopy, fluorescence, circular dichroism (CD), and surface plasmon resonance (SPR). RESULTS: According to our data, Hp exhibits a very weak association with both heme and BR; α₁-PI's affinity to BR is also very low. However, α₁-PI's affinity to heme (KD 2.0×10⁻⁸M) is of the same order of magnitude as that of albumin (1.26×10⁻⁸M). The data for α₁-PI binding with protoporphyrin IX (PPIX) suggest that the elimination of the iron atom from the porphyrin structure results in almost 350-fold lower affinity (KD 6.93×10⁻⁶M), thus indicating that iron is essential for the heme coordination with the α₁-PI. CONCLUSIONS: This work demonstrates for the first time that human α₁-PI is a heme binding protein with an affinity to heme comparable to that of albumin. GENERAL SIGNIFICANCE: Our data may have important implications for safety and efficacy of plasma protein therapeutics. Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in vivo. Due to its potential toxicity, heme binding to plasma proteins is an important safety issue in regard to protein therapeutics derived from human blood. While heme binding by hemopexin, albumin and α(1)-microglobulin has been extensively studied, the role of other plasma proteins remains largely unknown. We examined two acute-phase plasma proteins, haptoglobin (Hp) and alpha-1 proteinase inhibitor (α(1)-PI) for possible interactions with heme and bilirubin (BR), the final product of heme degradation, using various techniques: UV/Vis spectroscopy, fluorescence, circular dichroism (CD), and surface plasmon resonance (SPR). According to our data, Hp exhibits a very weak association with both heme and BR; α(1)-PI's affinity to BR is also very low. However, α(1)-PI's affinity to heme (K(D) 2.0×10(-8)M) is of the same order of magnitude as that of albumin (1.26×10(-8)M). The data for α(1)-PI binding with protoporphyrin IX (PPIX) suggest that the elimination of the iron atom from the porphyrin structure results in almost 350-fold lower affinity (K(D) 6.93×10(-6)M), thus indicating that iron is essential for the heme coordination with the α(1)-PI. This work demonstrates for the first time that human α(1)-PI is a heme binding protein with an affinity to heme comparable to that of albumin. Our data may have important implications for safety and efficacy of plasma protein therapeutics. Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in vivo. Due to its potential toxicity, heme binding to plasma proteins is an important safety issue in regard to protein therapeutics derived from human blood. While heme binding by hemopexin, albumin and α(1)-microglobulin has been extensively studied, the role of other plasma proteins remains largely unknown.BACKGROUNDHeme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in vivo. Due to its potential toxicity, heme binding to plasma proteins is an important safety issue in regard to protein therapeutics derived from human blood. While heme binding by hemopexin, albumin and α(1)-microglobulin has been extensively studied, the role of other plasma proteins remains largely unknown.We examined two acute-phase plasma proteins, haptoglobin (Hp) and alpha-1 proteinase inhibitor (α(1)-PI) for possible interactions with heme and bilirubin (BR), the final product of heme degradation, using various techniques: UV/Vis spectroscopy, fluorescence, circular dichroism (CD), and surface plasmon resonance (SPR).METHODSWe examined two acute-phase plasma proteins, haptoglobin (Hp) and alpha-1 proteinase inhibitor (α(1)-PI) for possible interactions with heme and bilirubin (BR), the final product of heme degradation, using various techniques: UV/Vis spectroscopy, fluorescence, circular dichroism (CD), and surface plasmon resonance (SPR).According to our data, Hp exhibits a very weak association with both heme and BR; α(1)-PI's affinity to BR is also very low. However, α(1)-PI's affinity to heme (K(D) 2.0×10(-8)M) is of the same order of magnitude as that of albumin (1.26×10(-8)M). The data for α(1)-PI binding with protoporphyrin IX (PPIX) suggest that the elimination of the iron atom from the porphyrin structure results in almost 350-fold lower affinity (K(D) 6.93×10(-6)M), thus indicating that iron is essential for the heme coordination with the α(1)-PI.RESULTSAccording to our data, Hp exhibits a very weak association with both heme and BR; α(1)-PI's affinity to BR is also very low. However, α(1)-PI's affinity to heme (K(D) 2.0×10(-8)M) is of the same order of magnitude as that of albumin (1.26×10(-8)M). The data for α(1)-PI binding with protoporphyrin IX (PPIX) suggest that the elimination of the iron atom from the porphyrin structure results in almost 350-fold lower affinity (K(D) 6.93×10(-6)M), thus indicating that iron is essential for the heme coordination with the α(1)-PI.This work demonstrates for the first time that human α(1)-PI is a heme binding protein with an affinity to heme comparable to that of albumin.CONCLUSIONSThis work demonstrates for the first time that human α(1)-PI is a heme binding protein with an affinity to heme comparable to that of albumin.Our data may have important implications for safety and efficacy of plasma protein therapeutics.GENERAL SIGNIFICANCEOur data may have important implications for safety and efficacy of plasma protein therapeutics. Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in vivo. Due to its potential toxicity, heme binding to plasma proteins is an important safety issue in regard to protein therapeutics derived from human blood. While heme binding by hemopexin, albumin and α1-microglobulin has been extensively studied, the role of other plasma proteins remains largely unknown. We examined two acute-phase plasma proteins, haptoglobin (Hp) and alpha-1 proteinase inhibitor (α1-PI) for possible interactions with heme and bilirubin (BR), the final product of heme degradation, using various techniques: UV/Vis spectroscopy, fluorescence, circular dichroism (CD), and surface plasmon resonance (SPR). According to our data, Hp exhibits a very weak association with both heme and BR; α1-PI's affinity to BR is also very low. However, α1-PI's affinity to heme (KD 2.0×10−8M) is of the same order of magnitude as that of albumin (1.26×10−8M). The data for α1-PI binding with protoporphyrin IX (PPIX) suggest that the elimination of the iron atom from the porphyrin structure results in almost 350-fold lower affinity (KD 6.93×10−6M), thus indicating that iron is essential for the heme coordination with the α1-PI. This work demonstrates for the first time that human α1-PI is a heme binding protein with an affinity to heme comparable to that of albumin. Our data may have important implications for safety and efficacy of plasma protein therapeutics. ► A role of non-traditional plasma heme scavengers is evaluated. ► Human α1-PI and Hp are examined for binding with heme, PPIX and BR. ► Methods include UV/Vis, fluorescence, SPR, CD and functional assays. ► This study for the first time defines human α1-PI as a heme binding protein. ► Affinity of α1-PI to heme is of the same order of magnitude as that of albumin.
Author	Krupnikova, Sonia Silinsky Karnaukhova, Elena Rajabi, Mohsen Alayash, Abdu I.
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Snippet	Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is intrinsically toxic in... BACKGROUND: Heme is a unique prosthetic group of various hemoproteins that perform diverse biological functions; however, in its free form heme is...
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SubjectTerms	albumins alpha 1-Antitrypsin - chemistry alpha 1-Antitrypsin - metabolism Alpha-1 proteinase inhibitor Bilirubin Bilirubin - chemistry Bilirubin - metabolism binding proteins blood Carrier Proteins - chemistry Carrier Proteins - metabolism Circular Dichroism fluorescence haptoglobins Haptoglobins - chemistry Haptoglobins - metabolism Heme Heme - chemistry Heme - metabolism Hemeproteins - chemistry Hemeproteins - metabolism Humans iron Protein Conformation proteinase inhibitors Protoporphyrin Protoporphyrins - chemistry Protoporphyrins - metabolism Spectrophotometry, Ultraviolet spectroscopy Surface Plasmon Resonance therapeutics toxicity Trypsin Inhibitors - chemistry Trypsin Inhibitors - metabolism
Title	Heme binding to human alpha-1 proteinase inhibitor
URI	https://dx.doi.org/10.1016/j.bbagen.2012.09.012 https://www.ncbi.nlm.nih.gov/pubmed/23000493 https://www.proquest.com/docview/1115062506 https://www.proquest.com/docview/2000005697
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