Kulothungan S Rajendra, Das Mili, Johnson Madrid, Ganesh Chandramowli, Varadarajan Raghavan
Molecular Biophysics Unit, Indian Institute of Science, Bangalore 560 012, India.
Langmuir. 2009 Jun 16;25(12):6637-48. doi: 10.1021/la900198h.
SecB, a soluble cytosolic chaperone component of the Sec export pathway, binds to newly synthesized precursor proteins and prevents their premature aggregation and folding and subsequently targets them to the translocation machinery on the membrane. PreMBP, the precursor form of maltose binding protein, has a 26-residue signal sequence attached to the N-terminus of MBP and is a physiological substrate of SecB. We examine the effect of macromolecular crowding and SecB on the stability and refolding of denatured preMBP and MBP. PreMBP was less stable than MBP (DeltaT(m )= 7 +/- 0.5 K) in both crowded and uncrowded solutions. Crowding did not cause any substantial changes in the thermal stability of MBP (DeltaT(m )= 1 +/- 0.4 K) or preMBP (DeltaT(m )= 0 +/- 0.6 K), as observed in spectroscopically monitored thermal unfolding experiments. However, both MBP and preMBP were prone to aggregation while refolding under crowded conditions. In contrast to MBP aggregates, which were amorphous, preMBP aggregates form amyloid fibrils. Under uncrowded conditions, a molar excess of SecB was able to completely prevent aggregation and promote disaggregation of preformed aggregates of MBP. When a complex of the denatured protein and SecB was preformed, SecB could completely prevent aggregation and promote folding of MBP and preMBP even in crowded solution. Thus, in addition to maintaining substrates in an unfolded, export-competent conformation, SecB also suppresses the aggregation of its substrates in the crowded intracellular environment. SecB is also able to promote passive disaggregation of macroscopic aggregates of MBP in the absence of an energy source such as ATP or additional cofactors. These experiments also demonstrate that signal peptide can greatly influence protein stability and aggregation propensity.
SecB是Sec输出途径中的一种可溶性胞质伴侣成分,它与新合成的前体蛋白结合,防止其过早聚集和折叠,随后将它们靶向到膜上的转运机制。麦芽糖结合蛋白的前体形式PreMBP在MBP的N端连接有一个26个残基的信号序列,是SecB的生理底物。我们研究了大分子拥挤和SecB对变性PreMBP和MBP稳定性及重折叠的影响。在拥挤和不拥挤的溶液中,PreMBP都比MBP不稳定(ΔTm = 7±0.5 K)。如光谱监测的热变性实验所示,拥挤对MBP(ΔTm = 1±0.4 K)或PreMBP(ΔTm = 0±0.6 K)的热稳定性没有引起任何实质性变化。然而,在拥挤条件下重折叠时,MBP和PreMBP都容易聚集。与无定形的MBP聚集体不同,PreMBP聚集体形成淀粉样纤维。在不拥挤的条件下,过量的SecB能够完全防止MBP预形成的聚集体聚集并促进其解聚。当变性蛋白和SecB的复合物预先形成时,即使在拥挤的溶液中,SecB也能完全防止MBP和PreMBP聚集并促进其折叠。因此,除了将底物维持在未折叠的、具有输出能力的构象外,SecB还能抑制其底物在拥挤的细胞内环境中的聚集。在没有ATP或其他辅助因子等能量来源的情况下,SecB还能够促进MBP宏观聚集体的被动解聚。这些实验还表明信号肽可极大地影响蛋白质的稳定性和聚集倾向。
