Donini Marcello, Morea Veronica, Desiderio Angiola, Pashkoulov Dimitre, Villani Maria Elena, Tramontano Anna, Benvenuto Eugenio
ENEA, UTS Biotecnologie, Sezione Genetica e Genomica Vegetale, C.R. Casaccia, P.O. Box 2400 I-00100, Roma, Italy.
J Mol Biol. 2003 Jul 4;330(2):323-32. doi: 10.1016/s0022-2836(03)00530-8.
Many attempts have been made to develop antibody fragments that can be expressed in the cytoplasm ("intrabodies") in a stable and functional form. The recombinant antibody fragment scFv(F8) is characterised by peculiarly high in vitro stability and functional folding in both prokaryotic and eukaryotic cytoplasm. To dissect the relative contribution of different scFv(F8) regions to cytoplasmic stability and specificity we designed and constructed five chimeric molecules (scFv-P1 to P5) in which several groups of residues important for antigen binding in the poorly stable anti-hen egg lysozyme (HEL) scFv(D1.3) were progressively grafted onto the scFv(F8) scaffold. All five chimeric scFvs were expressed in a soluble form in the periplasm and cytoplasm of Escherichia coli. All the periplasmic oxidised forms and the scFv(P3) extracted from the cytoplasm in reducing conditions had HEL binding affinities essentially identical (K(d)=15nM) to that of the cognate scFv(D1.3) fragment (K(d)=16nM). The successful grafting of the antigen binding properties of D1.3 onto the scFv(F8) opens the road to the exploitation of this molecule as a scaffold for the reshaping of intrabodies with desired specificities to be targeted to the cytoplasm.
人们已进行了多次尝试,以开发能够以稳定且有功能的形式在细胞质中表达的抗体片段(“胞内抗体”)。重组抗体片段scFv(F8)的特点是在原核和真核细胞质中均具有特别高的体外稳定性和功能性折叠。为了剖析scFv(F8)不同区域对细胞质稳定性和特异性的相对贡献,我们设计并构建了五个嵌合分子(scFv-P1至P5),其中几组对稳定性较差的抗鸡卵溶菌酶(HEL)scFv(D1.3)中抗原结合很重要的残基逐渐嫁接到scFv(F8)支架上。所有五个嵌合scFv均以可溶形式在大肠杆菌的周质和细胞质中表达。所有周质氧化形式以及在还原条件下从细胞质中提取的scFv(P3)与同源scFv(D1.3)片段(K(d)=16nM)的HEL结合亲和力基本相同(K(d)=15nM)。将D1.3的抗原结合特性成功嫁接到scFv(F8)上,为利用该分子作为支架来重塑具有靶向细胞质所需特异性的胞内抗体开辟了道路。
