CHFR is negatively regulated by SUMOylation-mediated ubiquitylation
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F-box protein
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Ubiquitin-Protein Ligases
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α-Synuclein accumulation is a pathological hallmark of Parkinson's disease (PD). Ubiquitinated α-synuclein is targeted to proteasomal or lysosomal degradation. Here, we identify SUMOylation as a major mechanism that counteracts ubiquitination by different E3 ubiquitin ligases and regulates α-synuclein degradation. We report that PIAS2 promotes SUMOylation of α-synuclein, leading to a decrease in α-synuclein ubiquitination by SIAH and Nedd4 ubiquitin ligases, and causing its accumulation and aggregation into inclusions. This was associated with an increase in α-synuclein release from the cells. A SUMO E1 inhibitor, ginkgolic acid, decreases α-synuclein levels by relieving the inhibition exerted on α-synuclein proteasomal degradation. α-Synuclein disease mutants are more SUMOylated compared with the wild-type protein, and this is associated with increased aggregation and inclusion formation. We detected a marked increase in PIAS2 expression along with SUMOylated α-synuclein in PD brains, providing a causal mechanism underlying the up-regulation of α-synuclein SUMOylation in the disease. We also found a significant proportion of Lewy bodies in nigral neurons containing SUMO1 and PIAS2. Our observations suggest that SUMOylation of α-synuclein by PIAS2 promotes α-synuclein aggregation by two mutually reinforcing mechanisms. First, it has a direct proaggregatory effect on α-synuclein. Second, SUMOylation facilitates α-synuclein aggregation by blocking its ubiquitin-dependent degradation pathways and promoting its accumulation. Therefore, inhibitors of α-synuclein SUMOylation provide a strategy to reduce α-synuclein levels and possibly aggregation in PD.
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The ubiquitin (UB) pathway is essential for the degradation of a cellular protein. Ubiquitination of a protein is carried out by a series of enzymatic activities with involvement of ubiquitin-activating enzyme ( E1) , ubiquitin conjugating enzyme ( E2) , and ubiquitin ligase ( E3) to form an ubiquitin-conjugating protein complex. With the ubiquitination process, either the function of the protein will be modified or the protein will be directly degraded by proteasome. In the ubiquitin-proteasome system, E3 plays a key role in the ubiquitination because it can recognize the specific protein substrates of an E2 complex and then catalyzes the UB conjugation to the substrates. In this review, the role of ubiquitin ligase which includes SSA/Ro52, roquin and synoviolin, in connective tissue diseases is discussed.
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A growing number of cellular functions have been shown to be regulated through protein degradation. The selective degradation of many short-lived proteins in eukaryotic cells is mediated by the ubiquitin system, by which proteins covalently ligated to ubiquitin are targeted for degradation. The selectivity of the destruction is ensured by the substrate specificity in the ubiquitination steps composed of a series of enzymatic reactions. Ubiquitin-ligase (E3), in conjunction with ubiquitin-conjugating enzyme (E2), has been implicated as playing an essential role in the substrate recognition. The substantial character, however, of the ligase was not clear until several recent studies demonstrated ligases that exert key roles in irreversible steps of the cell-cycle control. In this review, attention is focused on the molecular basis of target recognition of ubiquitination, particularly as exemplified in the ubiquitin-ligases in the cell-cycle control mechanisms.
Ubiquitin-conjugating enzyme
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F-box protein
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Ubiquitin ligases determine protein stability in a highly regulated manner by coordinating the addition of polyubiquitin chains to proteins that are then targeted to the proteasome for degradation. Ubiquitin ligases have generally been separated into two groups--those containing HECT domains and those with RING finger domains. Recently, a third group of ubiquitin ligases has emerged: those containing a U-box domain. Patterson discusses what is known about the few U-box-containing proteins that have been characterized, although the general properties of U-box proteins that distinguish them from other ubiquitin ligases are still a matter of speculation.
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식물체에서 sumoylation 기작은 성장 및 발달에 중요한 기능을 수행할 것이다. 특히, SUMO E3 ligase는 SUMO 단백질을 목적 단백질로 전달해주는 마지막 단계의 sumoylation 기작 구성요소이며, 다양한 신호전달에 특이성을 나타내는 것으로 보고되고 있다. 본 연구에서는 벼에서 SUMO E3 ligase, SIZ1 유전자에 T-DNA가 삽입된 Ossiz1-2 돌연변이 식물체를 분석하였다. 그리고, OsSIZ1 단백질이 OsSUMO1 단백질과 상호작용함으로써 OsSIZ1이 SUMO E3 ligase의 기능을 수행할 것으로 예측하였다. Ossiz1-2 돌연변이 식물체는 형태학적으로 발달과 성장의 다양한 부분에서 미성숙상태로 유지됨이 보였다. 특히, 야생형인 동진벼와 비교하여 초장의 성장 및 등숙율에서 상당히 낮은 정도를 보여 주었다. 이와 같이, 벼에서 SUMO E3 ligase로써 OsSIZ1 단백질의 생리학적인 기능은 성장과 발달 그리고, 수확량에 관여하는 단백질을 sumoylation 시키는 기작에서 역할을 수행할 것으로 사려된다. Sumoylation is a reversible conjugation process that attaches the small ubiquitin modifier (SUMO) peptide to target proteins and regulates a wide variety of cellular functions in eucaryotes. As final step of the sumoylation, SUMO E3 ligases facilitate conjugation of SUMO to target proteins. To characterize the functions of the SUMO E3 ligases in Oryza sativa, we isolated a single recessive rice SUMO E3 ligase, Ossiz1-2 mutant. In addition, we also confirmed the interaction between OsSIZ1/-2 and OsSUMO1, respectively, by using an Agrobacterium-based tobacco luciferase transient expression system. Ossiz1-2 mutant exhibited approximately 20% reduction in growth and developmental units compared with wild type. Especially, number of filled seeds and total seed weight were dramatically decreased in the Ossiz1-2 mutant rice. Thus, these results suggest that sumoylation by the OsSIZ1 as SUMO E3 ligase plays an important role in regulating growth and development in rice.
SUMO enzymes
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SUMO enzymes
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