Spectroscopic studies on human serum albumin and methemalbumin: optical, steady-state, and picosecond time-resolved fluorescence studies, and kinetics of substrate oxidation by methemalbumin

Kamal, J.K. Amisha; Behere, Digambar V.

doi:10.1007/s007750100294

Cited by 57 publications

(70 citation statements)

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“…As previously reported [34,37], upon addition of CO to iron(II) heme-HSA at pH values between 5.8 and 7.0, the electronic absorption spectrum is characterized by a sharp Soret band centered at 416 nm and b and a bands at 536 and 569 nm, respectively (Fig. S1).…”

Section: Spectroscopic Properties Of Co-iron(ii) Heme-hsasupporting

confidence: 80%

“…Iron(III) heme is secured to HSA by the long IA-IB connecting loop that fits into the cleft opening [14-16, 29, 33, 34]. In turn, heme endows HSA with globin-like reactivity [4,[35][36][37][38][39] and spectroscopic properties [22, 30-32, 34, 40-43]. [14] HSA is crucial for heme scavenging, providing protection against free heme oxidative damage, limiting the access of pathogens to heme, and contributing to iron homeostasis by recycling the heme iron.…”

Section: Introductionmentioning

confidence: 99%

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Evidence for pH-dependent multiple conformers in iron(II) heme–human serum albumin: spectroscopic and kinetic investigation of carbon monoxide binding

et al. 2011

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Section: Spectroscopic Properties Of Co-iron(ii) Heme-hsasupporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Evidence for pH-dependent multiple conformers in iron(II) heme–human serum albumin: spectroscopic and kinetic investigation of carbon monoxide binding

et al. 2011

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“…Heme binding to HSA inhibits ligand association to Sudlow's site I by stabilizing the basic (B) state of HSA, whereas ligand association to Sudlow's site I impairs human serum heme-albumin (HSA-heme) formation by stabilizing the neutral (N) state of HSA [9][10][11][12][13][21][22][23]. Interestingly, HSA-heme binds NO and CO and exhibits catalase and peroxidase activity [11,20,[24][25][26][27][28][29][30]. Furthermore, HSA-heme mutants have been proposed as O 2 -carriers [31,32].…”

mentioning

confidence: 99%

Abacavir and warfarin modulate allosterically kinetics of NO dissociation from ferrous nitrosylated human serum heme-albumin

Ascenzi

Imperi

Coletta

et al. 2008

Biochemical and Biophysical Research Communications

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Human serum albumin (HSA) participates to heme scavenging, in turn HSA-heme binds gaseous diatomic ligands at the heme-Featom. Here, the effect of abacavir and warfarin on denitrosylation kinetics of HSA-heme-Fe(II)-NO (i.e., k off ) is reported. In the absence of drugs, the value of k off is (1.3 ± 0.2) Â 10 À4 s À1 . Abacavir and warfarin facilitate NO dissociation from HSA-heme-Fe(II)-NO, the k off value increases to (8.6 ± 0.9) Â 10 À4 s À1 . From the dependence of k off on the drug concentration, values of the dissociation equilibrium constant for the abacavir and warfarin binding to HSA-heme-Fe(II)-NO (i.e., K = (1.2 ± 0.2) Â 10 À3 M and (6.2 ± 0.7) Â 10 À5 M, respectively) were determined. The increase of k off values reflects the stabilization of the basic form of HSA-heme-Fe by ligands (e.g., abacavir and warfarin) that bind to Sudlow's site I. This event parallels the stabilization of the six-coordinate derivative of the HSAheme-Fe(II)-NO atom. Present data highlight the allosteric modulation of HSA-heme-Fe(II) reactivity by heterotropic effectors.

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“…This revealed an absorbance band at~900 cm 21 attributable to the asymmetric stretching frequency of the oxo-bridged Fe-O-Fe dimer (Brown et al, 1969;Kapetanaki & Varotsis, 2000). As a negative control, Fe(III)PPIX.OH was incubated with bovine albumin, which resulted in a Soret band with a 403 nm l max (data not shown), indicating the formation of a haem monomeralbumin complex (Beaven et al, 1974;Kamal & Behere, 2002) and not the m-oxo bishaem. The amounts of the m-oxo dimer formed and monomer depleted during incubation of HA2 with iron(III) protoporphyrin IX monomers were calculated from the A 365 and A 385 ratios and the millimolar extinction coefficients at these wavelengths (Fig.…”

mentioning

confidence: 92%

The HA2 haemagglutinin domain of the lysine-specific gingipain (Kgp) of Porphyromonas gingivalis promotes μ-oxo bishaem formation from monomeric iron(III) protoporphyrin IX

et al. 2006

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The lysine-and arginine-specific gingipains (Kgp, and RgpA and RgpB) are the major proteinases produced by the black-pigmented periodontopathogen Porphyromonas gingivalis. They play a role in degrading host proteins, including haemoglobin, from which is formed the m-oxo bishaem complex of iron(III) protoporphyrin IX, [Fe(III)PPIX] 2 O, the major haem component of the black pigment. Kgp and RgpA bind haem and haemoglobin via the haemagglutinin-adhesin 2 (HA2) domain, but the role of this domain in the formation of m-oxo bishaem-containing pigment is not known. UV-visible spectroscopy was used to examine the interaction of iron(III) protoporphyrin IX monomers [Fe(III)PPIX.OH] with recombinant HA2 and purified HRgpA, Kgp and RgpB gingipains. The HA2 domain reacted with Fe(III)PPIX.OH to form m-oxo bishaem, the presence of which was confirmed by Fourier transform infrared spectroscopy. Both HRgpA and Kgp, but not RgpB, also mediated m-oxo bishaem formation and aggregation. It is concluded that the Arg-and Lys-gingipains with HA2 haemagglutinin domains may play a crucial role in haem-pigment formation by converting Fe(III)PPIX.OH monomers into [Fe(III)PPIX] 2 O and promoting their aggregation. INTRODUCTIONPorphyromonas gingivalis, a Gram-negative anaerobe, is strongly implicated in the pathogenesis of adult periodontitis (Holt et al., 1988;Machtei et al., 1997). One of its phenotypic characteristics is the production of a black haemcontaining pigment composed of iron(III) protoporphyrin IX in the form of the m-oxo bishaem complex [Fe(III)PPIX] 2 O (Smalley et al., 1998(Smalley et al., , 2002(Smalley et al., , 2004, also referred to as m-oxo dimer. It is composed of two iron(III) protoporphyrin IX molecules covalently joined through an oxygen atom interbridge, and it is this component which imparts the green-black coloration to the pigment. The m-oxo bishaem complex acts as a defensive molecule, since its formation from Fe(II) protoporphyrin IX monomers (derived from haemoglobin) ties up dioxygen and toxic oxygen intermediates (Smalley et al., 1998(Smalley et al., , 2002(Smalley et al., , 2004. Cell-surface m-oxo bishaem acts as a barrier against ingress of oxygen and reactive oxygen species and breaks down hydrogen peroxide through inherent catalase activity (Smalley et al., 2000).Gingipains specific for Arg-Xaa (RgpA and RgpB) and LysXaa (Kgp) peptide bonds are the major proteases produced by P. gingivalis (Potempa et al., 1995). While Kgp is the product of a single gene (kgp), Rgps are encoded by two related but individual genes (rgpA and rgpB). In contrast to the single-chain enzyme RgpB, mature Kgp and RgpA (HRgpA) proteins are multidomain complexes generated by proteolytic processing of the nascent translated polypeptide chains. They are composed of divergent protease domains associated with virtually identical haemagglutinin-adhesin (HA) domains. In addition to playing an important role in pathogenicity, either by degrading or inactivating proteins essential for host immunity and connective tissue integrity (...

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Spectroscopic studies on human serum albumin and methemalbumin: optical, steady-state, and picosecond time-resolved fluorescence studies, and kinetics of substrate oxidation by methemalbumin

Cited by 57 publications

References 3 publications

Evidence for pH-dependent multiple conformers in iron(II) heme–human serum albumin: spectroscopic and kinetic investigation of carbon monoxide binding

Evidence for pH-dependent multiple conformers in iron(II) heme–human serum albumin: spectroscopic and kinetic investigation of carbon monoxide binding

Abacavir and warfarin modulate allosterically kinetics of NO dissociation from ferrous nitrosylated human serum heme-albumin

The HA2 haemagglutinin domain of the lysine-specific gingipain (Kgp) of Porphyromonas gingivalis promotes μ-oxo bishaem formation from monomeric iron(III) protoporphyrin IX

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