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7 results on '"Xiao-Xiao Jian"'

2. Rhythmic Cilium in SCN Neuron is a Gatekeeper for the Intrinsic Circadian Clock

Author

Hai-Qing Tu, Sen Li, Yu-Ling Xu, Yu-Cheng Zhang, Xiao-Xiao Jian, Guang-Ping Song, Min Wu, Zeng-Qing Song, Huai-Bin Hu, Pei-Yao Li, Li-Yun Liang, Jin-Feng Yuan, Xiao-Lin Shen, Jia-Ning Li, Qiu-Ying Han, Kai Wang, Tao Zhang, Tao Zhou, Ai-Ling Li, Xue-Min Zhang, and Hui-Yan Li

Subjects
animal structures, nervous system, sense organs
Abstract

The internal circadian rhythm is controlled by the central pacemaker in the hypothalamic suprachiasmatic nucleus (SCN). SCN drives coherent and synchronized circadian oscillations via intercellular coupling, which are resistant to environmental perturbations. Here we report that primary cilium is a critical device for intercellular coupling among SCN neurons and acts as a gatekeeper to maintain the internal clock in mice. A subset of SCN neurons, namely neuromedin S-producing (NMS) neurons, exhibit cilia dynamics with a pronounced circadian rhythmicity. Genetic ablation of ciliogenesis in NMS neurons enables a rapid phase shift of the internal clock under experimental jet lag conditions. The circadian rhythms of individual neurons in cilia-deficient SCN slices lose their coherence following external perturbations. Rhythmic cilia dynamics drive oscillations of Sonic Hedgehog (Shh) signaling and oscillated expressions of multiple circadian genes in SCN neurons. Genetic and chemical inactivation of Shh signaling in NMS neurons phenocopies the effect of cilia ablation. Our findings establish ciliary signaling as a novel interneuronal coupling mechanism in the SCN and may lead to novel therapy of circadian disruption-linked diseases.One-Sentence SummaryRhythmic cilium is a critical device for intercellular coupling among SCN neurons and acts as gatekeeper for the internal clock.

Published
2022
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3. LUBAC regulates ciliogenesis by promoting CP110 removal from the mother centriole

Author

Jia-Ning Li, Yu-Cheng Zhang, Xuan-He Qin, Jin-Feng Yuan, Sen Li, Huai-Bin Hu, Li-Yun Liang, Qiu-Ying Han, Zeng-Qing Song, Kai Wang, Chun-Yu He, Pei-Yao Li, Xi-Ping Yu, Li Huiyan, Hai-Qing Tu, Xiao-Lin Shen, Xiao-Xiao Jian, Yu-Ling Xu, Guang-Ping Song, Ai-Ling Li, Min Wu, Na Wang, and Tao Zhou

Subjects
Organogenesis, Cell Cycle Proteins, Biology, Ciliopathies, Cell Line, Substrate Specificity, Mice, Splicing factor, Ubiquitin, Ciliogenesis, Animals, Humans, Cilia, Zebrafish, Centrioles, Cilium, Ubiquitination, RNA-Binding Proteins, Cell Biology, Phosphoproteins, Cell biology, Ubiquitin ligase, Multiprotein Complexes, biology.protein, Mother centriole, Microtubule-Associated Proteins
Abstract

Primary cilia transduce diverse signals in embryonic development and adult tissues. Defective ciliogenesis results in a series of human disorders collectively known as ciliopathies. The CP110–CEP97 complex removal from the mother centriole is an early critical step for ciliogenesis, but the underlying mechanism for this step remains largely obscure. Here, we reveal that the linear ubiquitin chain assembly complex (LUBAC) plays an essential role in ciliogenesis by targeting the CP110–CEP97 complex. LUBAC specifically generates linear ubiquitin chains on CP110, which is required for CP110 removal from the mother centriole in ciliogenesis. We further identify that a pre-mRNA splicing factor, PRPF8, at the distal end of the mother centriole acts as the receptor of the linear ubiquitin chains to facilitate CP110 removal at the initial stage of ciliogenesis. Thus, our study reveals a direct mechanism of regulating CP110 removal in ciliogenesis and implicates the E3 ligase LUBAC as a potential therapy target of cilia-associated diseases, including ciliopathies and cancers.

Published
2021
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4. CEP55 promotes cilia disassembly through stabilizing Aurora A kinase

Author

Yu-Cheng Zhang, Yu-Ling Xu, Qiu-Ying Han, Min Wu, Na Wang, Tao Zhou, Hai-Qing Tu, Ai-Ling Li, Li Huiyan, Xiao-Xiao Jian, Huai-Bin Hu, Jin-Feng Yuan, Pei-Yao Li, Zeng-Qing Song, Xue-Min Zhang, Xiao-Lin Shen, Sen Li, and Yun-Feng Bai

Subjects
Cell, Aurora A kinase, Mitosis, Cell Cycle Proteins, Biology, Development, medicine.disease_cause, Ciliopathies, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Enzyme Stability, medicine, Animals, Humans, Disease, Cilia, Cells, Cultured, 030304 developmental biology, Aurora Kinase A, Encephalocele, Centrosome, 0303 health sciences, Mutation, Polycystic Kidney Diseases, Cilium, HEK 293 cells, Cell Biology, Cell Cycle Checkpoints, respiratory system, medicine.disease, Smoothened Receptor, Cell biology, Ciliopathy, medicine.anatomical_structure, HEK293 Cells, Phenotype, Gene Targeting, 030217 neurology & neurosurgery, Chaperonin Containing TCP-1, Retinitis Pigmentosa, Ciliary Motility Disorders, Protein Binding
Abstract

Zhang et al. identify CEP55 as a novel regulator of cilia disassembly. Their findings establish a cilia disassembly role for CEP55 in vivo and in vitro, coupling defects in cilia disassembly to ciliopathy and further suggesting that proper cilia dynamics are critical for mammalian development., Primary cilia protrude from the cell surface and have diverse roles during development and disease, which depends on the precise timing and control of cilia assembly and disassembly. Inactivation of assembly often causes cilia defects and underlies ciliopathy, while diseases caused by dysfunction in disassembly remain largely unknown. Here, we demonstrate that CEP55 functions as a cilia disassembly regulator to participate in ciliopathy. Cep55−/− mice display clinical manifestations of Meckel–Gruber syndrome, including perinatal death, polycystic kidneys, and abnormalities in the CNS. Interestingly, Cep55−/− mice exhibit an abnormal elongation of cilia on these tissues. Mechanistically, CEP55 promotes cilia disassembly by interacting with and stabilizing Aurora A kinase, which is achieved through facilitating the chaperonin CCT complex to Aurora A. In addition, CEP55 mutation in Meckel–Gruber syndrome causes the failure of cilia disassembly. Thus, our study establishes a cilia disassembly role for CEP55 in vivo, coupling defects in cilia disassembly to ciliopathy and further suggesting that proper cilia dynamics are critical for mammalian development.

Published
2021

6. Bridging gaps to universal palliative care access in Chile: serious health-related suffering and the cost of expanding the package of care servicesResearch in context

Author

Pedro E. Pérez-Cruz, Eduardo Undurraga, Hector Arreola-Ornelas, Oscar Corsi, Xiao-Xiao Jiang Kwete, Eric L. Krakauer, William E. Rosa, and Felicia M. Knaul

Subjects
Palliative care, Delivery of health care, Chile, Latin America, Health policy, Cancer, Public aspects of medicine, RA1-1270
Abstract

Summary: Background: The Lancet Commission on Palliative Care (PC) and Pain Relief quantified the burden of serious health-related suffering (SHS), proposing an Essential Package of PC (EPPC) to narrow the global PC divide. We applied the EPPC framework to analyze PC access in Chile, identify gaps in coverage, and provide recommendations to improve PC access. Methods: Total SHS and population in need of PC was estimated using official 2019 government data. We differentiated between cancer and non-cancer related SHS given guaranteed Chilean PC coverage for cancer. We calculated differences between the Chilean PC package and the Lancet Commission EPPC to estimate the cost of expanding to achieve national coverage of palliative care. Findings: In 2019, nearly 105,000 decedent and non-decedent Chileans experienced SHS with a lower-bound estimate of 12.1 million days and an upper-bound estimate of 42.4 million days of SHS. Each individual experienced between 116 and 520 days of SHS per year. People living with a cancer diagnosis had PC access with financial protection, accounting for almost 42% of patients in need. People with non-cancer diagnoses—about 61 thousand patients–lacked PC coverage. Expanding coverage of the EPPC for all patients in need would cost just above $123 million USD, equivalent to 0.47% of Chilean National Health Expenditure. Interpretation: Achieving universal PC access is urgent and feasible for Chile, classified as a high-income country. Expanding PC services and coverage to the EPPC standard are affordable and critical health system responses to ensuring financial protection for patients with SHS. In Chile, this requires closing large gaps in PC coverage pertaining to patients with non-cancer conditions and treatment of symptoms that go beyond pain. Our research provides an empirical approach for applying the Lancet Commission SHS framework to estimate the cost of achieving national universal PC access anchored in a package of health care services. Funding: This research was partially funded by the Chilean Government through the Fondo Nacional de Ciencia y Tecnología (Fondecyt Regular) grant number 1201721, the U.S. Cancer Pain Relief Committee grant AWD-003806 awarded to the University of Miami and by the University of Miami Institute for Advanced Study of the Americas. We acknowledge NIH/NCI award P30CA008748.

Published
2023
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