Browsing by Author "Liu, Dali"

Now showing 1 - 3 of 3
  • Thumbnail Image
    Item
    Discovery and Optimization of Inhibitors of the Parkinson’s Disease Associated Protein DJ-1
    (ACS, 2018-07) Tashiro, Shinya; Caaveiro, Jose M. M.; Nakakido, Makoto; Tanabe, Aki; Nagatoishi, Satoru; Tamura, Yasushi; Matsuda, Noriyuki; Liu, Dali; Hoang, Quyen Q.; Tsumoto, Kouhei; Biochemistry and Molecular Biology, School of Medicine
    DJ-1 is a Parkinson’s disease associated protein endowed with enzymatic, redox sensing, regulatory, chaperoning, and neuroprotective activities. Although DJ-1 has been vigorously studied for the past decade and a half, its exact role in the progression of the disease remains uncertain. In addition, little is known about the spatiotemporal regulation of DJ-1, or the biochemical basis explaining its numerous biological functions. Progress has been hampered by the lack of inhibitors with precisely known mechanisms of action. Herein, we have employed biophysical methodologies and X-ray crystallography to identify and to optimize a family of compounds inactivating the critical Cys106 residue of human DJ-1. We demonstrate these compounds are potent inhibitors of various activities of DJ-1 in vitro and in cell-based assays. This study reports a new family of DJ-1 inhibitors with a defined mechanism of action, and contributes toward the understanding of the biological function of DJ-1.
  • Thumbnail Image
    Item
    The protective role of DOT1L in UV-induced melanomagenesis
    (Nature Publishing Group, 2018-01-17) Zhu, Bo; Chen, Shuyang; Wang, Hongshen; Yin, Chengqian; Han, Changpeng; Peng, Cong; Liu, Zhaoqian; Wan, Lixin; Zhang, Zhang; Zhang, Jie; Lian, Christine G.; Ma, Peilin; Xu, Zhi-xiang; Prince, Sharon; Wang, Tao; Gao, Xiumei; Shi, Yujiang; Liu, Dali; Liu, Min; Wei, Wenyi; Wei, Zhi; Pan, Jingxuan; Wang, Yongjun; Xuan, Zhenyu; Hess, Jay L.; Hayward, Nicholas K.; Goding, Colin R.; Chen, Xiang; Zhou, Jun; Cui, Rutao; Pathology and Laboratory Medicine, School of Medicine
    The DOT1L histone H3 lysine 79 (H3K79) methyltransferase plays an oncogenic role in MLL-rearranged leukemogenesis. Here, we demonstrate that, in contrast to MLL-rearranged leukemia, DOT1L plays a protective role in ultraviolet radiation (UVR)-induced melanoma development. Specifically, the DOT1L gene is located in a frequently deleted region and undergoes somatic mutation in human melanoma. Specific mutations functionally compromise DOT1L methyltransferase enzyme activity leading to reduced H3K79 methylation. Importantly, in the absence of DOT1L, UVR-induced DNA damage is inefficiently repaired, so that DOT1L loss promotes melanoma development in mice after exposure to UVR. Mechanistically, DOT1L facilitates DNA damage repair, with DOT1L-methylated H3K79 involvement in binding and recruiting XPC to the DNA damage site for nucleotide excision repair (NER). This study indicates that DOT1L plays a protective role in UVR-induced melanomagenesis.
  • Thumbnail Image
    Item
    Structural and Biochemical Characterization of AidC, a Quorum-Quenching Lactonase With Atypical Selectivity
    (ACS, 2015-06) Mascarenhas, Romila; Thomas, Pei W.; Wu, Chun-Xiang; Nocek, Boguslaw P.; Hoang, Quyen Q.; Liu, Dali; Fast, Walter; Department of Biochemistry and Molecular Biology, IU School of Medicine
    Quorum-quenching catalysts are of interest for potential application as biochemical tools for interrogating interbacterial communication pathways, as antibiofouling agents, and as anti-infective agents in plants and animals. Herein, the structure and function of AidC, an N-acyl-l-homoserine lactone (AHL) lactonase from Chryseobacterium, is characterized. Steady-state kinetics show that zinc-supplemented AidC is the most efficient wild-type quorum-quenching enzymes characterized to date, with a kcat/KM value of approximately 2 × 106 M–1 s–1 for N-heptanoyl-l-homoserine lactone. The enzyme has stricter substrate selectivity and significantly lower KM values (ca. 50 μM for preferred substrates) compared to those of typical AHL lactonases (ca. >1 mM). X-ray crystal structures of AidC alone and with the product N-hexanoyl-l-homoserine were determined at resolutions of 1.09 and 1.67 Å, respectively. Each structure displays as a dimer, and dimeric oligiomerization was also observed in solution by size-exclusion chromatography coupled with multiangle light scattering. The structures reveal two atypical features as compared to previously characterized AHL lactonases: a “kinked” α-helix that forms part of a closed binding pocket that provides affinity and enforces selectivity for AHL substrates and an active-site His substitution that is usually found in a homologous family of phosphodiesterases. Implications for the catalytic mechanism of AHL lactonases are discussed.