Abstract
Human Angiogenin (hANG, or ANG, 14.1 kDa) promotes vessel formation and is also called RNase 5 because it is included in the pancreatic-type ribonuclease (pt-RNase) super-family. Although low, its ribonucleolytic activity is crucial for angiogenesis in tumor tissues but also in the physiological development of the Central Nervous System (CNS) neuronal progenitors. Nevertheless, some ANG variants are involved in both neurodegenerative Parkinson disease (PD) and Amyotrophic Lateral Sclerosis (ALS). Notably, some pt-RNases acquire new biological functions upon oligomerization. Considering neurodegenerative diseases correlation with massive protein aggregation, we analyzed the aggregation propensity of ANG and of three of its pathogenic variants, namely H13A, S28N, and R121C. We found no massive aggregation, but wt-ANG, as well as S28N and R121C variants, can form an enzymatically active dimer, which is called ANG-D. By contrast, the enzymatically inactive H13A-ANG does not dimerize. Corroborated by a specific cross-linking analysis and by the behavior of H13A-ANG that in turn lacks one of the two His active site residues necessary for pt-RNases to self-associate through the three-dimensional domain swapping (3D-DS), we demonstrate that ANG actually dimerizes through 3D-DS. Then, we deduce by size exclusion chromatography (SEC) and modeling that ANG-D forms through the swapping of ANG N-termini. In light of these novelties, we can expect future investigations to unveil other ANG determinants possibly related with the onset and/or development of neurodegenerative pathologies.
Highlights
Human angiogenin is a 123 residue 14.1 kDa protein first isolated from human adenocarcinoma cell-conditioned media [1,2]
We detected that human angiogenin can form a dimer, called
We found that its two pathogenic variants S28NANG and R121C-ANG can dimerize as well and even at a higher extent than the wt
Summary
Human angiogenin (hANG, or ANG) is a 123 residue 14.1 kDa protein first isolated from human adenocarcinoma cell-conditioned media [1,2]. ANG is known as ribonuclease 5 (RNase 5) [7] because it displays the typical size and fold of the secretory pancreatic-type (pt)-RNases [8], and its catalytic triad is composed of His, Lys, and His114 [9,10], corresponding to the H12, K41, and H119 residues in bovine pancreatic RNase A, the super-family archetype [11]. C65-C72 short disulfide but possesses an extra 310 -helix at its C-terminus [8]. The common residues are highlighted in green, while the catalytic triad is in light blue. The different regions, especially the helices, are shown with different colours, while the different conformations of the
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