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Effects of amino acid substitutions outside an antigenic site on protein binding to monoclonal antibodies of predetermined specificity obtained by peptide immunization: Demonstration with region 15–22 (antigenic site 1) of myoglobin (1992)

Abaza, Mohamed-Salah I. ; Young, Colin R. ; Atassi, M. Zouhair

Springer

The protein journal 11 (1992), S. 445-454

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ISSN: 1573-4943

Keywords: Amino acid substitutions ; monoclonal antibodies ; myoglobins ; predetermined specificity ; synthetic antigenic site

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Monoclonal antibodies (mAbs) of predetermined specificity were prepared by immunizing with a free (i.e., not conjugated to any carrier) synthetic peptide representing region 15–22 (site 1) of sperm whale myoglobin (SpMb). The cross-reactions of Mb variants with three mAbs were studied in order to determine whether such interactions are influenced by substitutions outsde the site. Finback whale Mb, which has no substitutions within region 15–22, showed lower cross-reactivity and relative binding affinity than the reference antigen, SpMb. Bottle-nose Atlantic dolphin myoglobin (BdMb) and badger myoglobin (BgMb), although they have identical substitutions within region 15–22 (Ala-15 to Gly and Val-21 to Leu), showed very different binding properties. The cross-reaction of BdMb was quite comparable to that of SpMb, while that of BgMb was much lower. Since the two proteins have identical structures in regions 15–22, the differences in their cross-reactivities are readily attributed to the effects of substitutions outside this region. Another pair of myoglobins, horse myoglobins (HsMb) and chicken myoglobin (ChMb), also have two identical substitutions (Ala-15 to Gly and Val-21 to Ile) within region 15–22, but possessed different cross-reactivity. The results indicate that the reaction of mAbs, whose specificity is precisely known and predetermined by the immunizing free peptide, can be markedly affected by substitutions outside the indicated binding region on the protein.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01025021

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Abaza, Mohamed-Salah I. ; Atassi, M. Zouhair

Springer

The protein journal 11 (1992), S. 687-698

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ISSN: 1573-4943

Keywords: Amino acid substitutions ; monoclonal antibodies ; myoglobins ; predetermined specificity ; synthetic antigenic site

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Monoclonal antibodies of predetermined specificity were prepared by immunization with a free (i.e., without coupling to any protein carrier) synthetic peptide representing region 145–151 of sperm whale myoglobin (SpMb) and their cross-reactions with eight Mb variants were determined. Five Mbs—bottle-nose dolphin myoglobin (BdMb), pacific common dolphin myoglobin (PdMb), horse myoglobin (HsMb), dog myoglobin (DgMb), and badger myoglobin (BgMb)—have an identical sequence in that region. Nevertheless, these Mbs exhibited very different cross-reactivities. BdMb and PdMb exhibited cross-activities which were comparable to that of the reference antigen, SpMb; while the reactivity of HsMb was remarkedly decreased, DgMb and BgMb showed almost no cross-reactions with these mAbs. Since the region 145–151 has an identical sequence in all the five Mbs, it is concluded that the differences in their antigenic reactivities with anti-region 145–151 mAbs are due to the effects of amino acid substitutions outside the region 145–151. Another pair of myoglobins, echidna myoglobin (EdMb) and chicken myoglobin (ChMb), have the same sequence in that region, but reacted very differently with anti-region 145–151 mAbs. The reactivity and affinity of EdMb were substantially decreased while those of ChMb were almost completely absent, relative to SpMb. It is concluded, contrary to popular assumptions, that when an amino acid substitution influences the binding of a protein variant to a mAb, it is not necessary for that substitution to be an actual contact residue (i.e., a residue within the antigenic site where the mAb binds). Such effects, which are often very drastic, could be due to indirect influences of the substitution on the chemical and binding properties of the site residues. Furthermore, residues which had been postulated, on the basis of these assumptions, to constitute discontinuous antigenic sites in SpMb, were found [from the present studies and those recently reported with mAbs against the other four antigenic site of Mb (regions 15–22, 56–62, 94–100, and 113–120 of SpMb)] to merely be exerting indirect effects on the known five antigenic sites of Mb. The effects of substitutions, which can happen even in the absence of conformational changes, are determined by many factors, such as the chemical nature of the substitution, its environment, its distance from the site, and the nature of the site residue(s) being affected.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01024970

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Mapping the extracellular topography of the α-chain in free and in membrane-bound acetylcholine receptor by antibodies against overlapping peptides spanning the entire extracellular parts of the chain (1994)

Atassi, M. Zouhair ; Mulac-Jericevic, Biserka

Springer

The protein journal 13 (1994), S. 37-47

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ISSN: 1573-4943

Keywords: Antipeptide antibodies ; acetylcholine receptor ; polypeptide chain organization ; subunit topography ; synthetic peptides

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The extracellular surface of theα-chain ofTorpedo california acetylcholine receptor (AChR) was mapped for regions that are accessible to binding with antibodies against a panel of synthetic overlapping peptides which encompassed the entire extracellular parts of the chain. The binding of the antipeptide antibodies to membrane-bound AChR (mbAChR) and to isolated, soluble AChR. was determined. The specificity of each antiserum was narrowed down by determining the extent of its cross-reaction with the two adjacent peptides that overlap the immunizing peptide. With mbAChR, high antibody reactivity was obtained with antisera against peptidesα1–16,α89–104,α158–174,α262–276, andα388–408. Lower, but significant, levels of reactivity were obtained with antibodies against peptidesα67–82,α78–93,α100–115, andα111–126. On the other hand, free AChR bound high levels of antibodies against peptidesα34–49,α78–93,α134–150,α170–186, andα194–210. It also bound moderate levels of antibodies against peptidesα262–276 andα388–408. Low, yet significant, levels of binding were exhibited by antibodies against peptidesα45–60,α111–126, andα122–138. These binding studies, which enabled a comparison of the accessible regions in mbAChR and free AChR, revealed that the receptor undergoes considerable changes in conformation upon removal from the cell membrane. The exposed regions found here are discussed in relation to the functional sites of AChR (i.e., the acetylcholine binding site, the regions that are recognized by anti-AChR antibodies, T-cells and autoimmune responses and the regions that bind short and long neurotoxins).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01891991

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