Dean Clift scite author profile

SummaryMethods for the targeted disruption of protein function have revolutionized science and greatly expedited the systematic characterization of genes. Two main approaches are currently used to disrupt protein function: DNA knockout and RNA interference, which act at the genome and mRNA level, respectively. A method that directly alters endogenous protein levels is currently not available. Here, we present Trim-Away, a technique to degrade endogenous proteins acutely in mammalian cells without prior modification of the genome or mRNA. Trim-Away harnesses the cellular protein degradation machinery to remove unmodified native proteins within minutes of application. This rapidity minimizes the risk that phenotypes are compensated and that secondary, non-specific defects accumulate over time. Because Trim-Away utilizes antibodies, it can be applied to a wide range of target proteins using off-the-shelf reagents. Trim-Away allows the study of protein function in diverse cell types, including non-dividing primary cells where genome- and RNA-targeting methods are limited.

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A three-step MTOC fragmentation mechanism facilitates bipolar spindle assembly in mouse oocytes

Clift

2015

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Assembly of a bipolar microtubule spindle is essential for accurate chromosome segregation. In somatic cells, spindle bipolarity is determined by the presence of exactly two centrosomes. Remarkably, mammalian oocytes do not contain canonical centrosomes. This study reveals that mouse oocytes assemble a bipolar spindle by fragmenting multiple acentriolar microtubule-organizing centres (MTOCs) into a high number of small MTOCs to be able to then regroup and merge them into two equal spindle poles. We show that MTOCs are fragmented in a three-step process. First, PLK1 triggers a decondensation of the MTOC structure. Second, BicD2-anchored dynein stretches the MTOCs into fragmented ribbons along the nuclear envelope. Third, KIF11 further fragments the MTOCs following nuclear envelope breakdown so that they can be evenly distributed towards the two spindle poles. Failure to fragment MTOCs leads to defects in spindle assembly, which delay chromosome individualization and congression, putting the oocyte at risk of aneuploidy.

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Restarting life: fertilization and the transition from meiosis to mitosis

Clift

Schuh

2013

Nat Rev Mol Cell Biol

253

177

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Fertilization triggers a complex cellular programme that transforms two highly specialized meiotic germ cells, the oocyte and the sperm, into a totipotent mitotic embryo. Linkages between sister chromatids are remodelled to support the switch from reductional meiotic to equational mitotic divisions; the centrosome, which is absent from the egg, is reintroduced; cell division shifts from being extremely asymmetric to symmetric; genomic imprinting is selectively erased and re-established; and protein expression shifts from translational control to transcriptional control. Recent work has started to reveal how this remarkable transition from meiosis to mitosis is achieved.

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Cytosolic Fc receptor TRIM21 inhibits seeded tau aggregation

McEwan

Falcon

Vaysburd

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

141

144

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Alzheimer's disease (AD) and other neurodegenerative disorders are associated with the cytoplasmic aggregation of microtubuleassociated protein tau. Recent evidence supports transcellular transfer of tau misfolding (seeding) as the mechanism of spread within an affected brain, a process reminiscent of viral infection. However, whereas microbial pathogens can be recognized as nonself by immune receptors, misfolded protein assemblies evade detection, as they are host-derived. Here, we show that when misfolded tau assemblies enter the cell, they can be detected and neutralized via a danger response mediated by tau-associated antibodies and the cytosolic Fc receptor tripartite motif protein 21 (TRIM21). We developed fluorescent, morphology-based seeding assays that allow the formation of pathological tau aggregates to be measured in situ within 24 h in the presence of picomolar concentrations of tau seeds. We found that anti-tau antibodies accompany tau seeds into the cell, where they recruit TRIM21 shortly after entry. After binding, TRIM21 neutralizes tau seeds through the activity of the proteasome and the AAA ATPase p97/VCP in a similar manner to infectious viruses. These results establish that intracellular antiviral immunity can be redirected against host-origin endopathogens involved in neurodegeneration.T he cell's ability to identify intracellular viruses and bacteria relies on the detection of pathogen-associated molecular patterns (PAMPs) by specialized host receptors. Although highly effective at detecting microbial pathogens, this strategy is poorly equipped to identify host-derived pathogenic species such as aggregated proteins. As an alternative to PAMP detection, recent work has demonstrated that mammalian cells can use hostderived serum proteins, which are normally excluded from the cell interior, to target invading viruses and bacteria in the cytosol. For instance, nonenveloped viruses and bacteria carry antibodies with them into the cytoplasm during infection. These translocated antibodies are then sensed by the cytoplasmically expressed antibody receptor TRIM21 (tripartite motif protein 21), which binds with subnanomolar affinity to the antibody Fc domain (1-4). After binding to antibody, TRIM21 triggers a potent neutralization response that inhibits viral infection. Neutralization of infection is accompanied by degradation of viral components, which requires the activity of the proteasome and the molecular unfoldase, valosincontaining protein (VCP) or p97 (1, 5). Detection of viruses and bacteria by TRIM21 does not rely on microbial PAMPs, as model substrates such as antibody-coated latex beads can be bound and detected by TRIM21 (1, 3). We therefore hypothesized that the intracellular innate immune system could be repurposed to recognize and degrade host-derived pathogenic proteins.Microtubule-associated protein tau occurs in an assembled and hyperphosphorylated state in the cytoplasm of neurons and glial cells in Alzheimer's disease (AD), progressive supranuclear palsy, chronic traumatic encep...

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A liquid-like spindle domain promotes acentrosomal spindle assembly in mammalian oocytes

Seres

Steyer

et al. 2019

Science

123

144

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Mammalian oocytes segregate chromosomes with a microtubule spindle that lacks centrosomes. How acentrosomal spindles are organized and function is largely unclear. Here, we identify a conserved subcellular structure in mammalian oocytes that forms by phase separation. This structure, which we term the liquid-like meiotic spindle domain (LISD), permeates the spindle poles and forms dynamic protrusions that extend well beyond the spindle. The LISD selectively concentrates multiple microtubule regulatory factors, and allows them to diffuse rapidly within the spindle volume. Disruption of the LISD via different means disperses these factors and leads to severe spindle assembly defects. Our data suggest a model whereby the LISD promotes meiotic spindle assembly by serving as a reservoir that sequesters and mobilizes microtubule regulatory factors in proximity of spindle microtubules.

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Shugoshin biases chromosomes for biorientation through condensin recruitment to the pericentromere

et al. 2014

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To protect against aneuploidy, chromosomes must attach to microtubules from opposite poles (‘biorientation’) prior to their segregation during mitosis. Biorientation relies on the correction of erroneous attachments by the aurora B kinase, which destabilizes kinetochore-microtubule attachments that lack tension. Incorrect attachments are also avoided because sister kinetochores are intrinsically biased towards capture by microtubules from opposite poles. Here, we show that shugoshin acts as a pericentromeric adaptor that plays dual roles in biorientation in budding yeast. Shugoshin maintains the aurora B kinase at kinetochores that lack tension, thereby engaging the error correction machinery. Shugoshin also recruits the chromosome-organizing complex, condensin, to the pericentromere. Pericentromeric condensin biases sister kinetochores towards capture by microtubules from opposite poles. Our findings uncover the molecular basis of the bias to sister kinetochore capture and expose shugoshin as a pericentromeric hub controlling chromosome biorientation.DOI: http://dx.doi.org/10.7554/eLife.01374.001

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Acute and rapid degradation of endogenous proteins by Trim-Away

et al. 2018

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This Protocol describes 'Trim-away', an approach for rapid protein depletion in different cell-types. TRIM21-mediated proteasomal degradation is induced by microinjection or electroporation of an antibody against the protein of interest. TWEET A new Protocol describing the detailed procedures for 'Trim-away', an approach for rapid protein depletion in oocytes, primary cells, and cultured cells @SchuhLab @mpi_bpc @MRC_LMB @CellBiol_MRCLMB COVER TEASER Rapid protein depletion in cells using 'Trim-away' Please indicate up to four primary research articles where the protocol has been used and/or developed. 1. Clift, D. et al. A method for the acute and rapid degradation of endogenous proteins. Cell. 171, 1692-1706 (2017).

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Anti-commensal IgG Drives Intestinal Inflammation and Type 17 Immunity in Ulcerative Colitis

et al. 2019

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Summary Inflammatory bowel disease is a chronic, relapsing condition with two subtypes, Crohn’s disease (CD) and ulcerative colitis (UC). Genome-wide association studies (GWASs) in UC implicate a FCGR2A variant that alters the binding affinity of the antibody receptor it encodes, FcγRIIA, for immunoglobulin G (IgG). Here, we aimed to understand the mechanisms whereby changes in FcγRIIA affinity would affect inflammation in an IgA-dominated organ. We found a profound induction of anti-commensal IgG and a concomitant increase in activating FcγR signaling in the colonic mucosa of UC patients. Commensal-IgG immune complexes engaged gut-resident FcγR-expressing macrophages, inducing NLRP3- and reactive-oxygen-species-dependent production of interleukin-1β (IL-1β) and neutrophil-recruiting chemokines. These responses were modulated by the FCGR2A genotype. In vivo manipulation of macrophage FcγR signal strength in a mouse model of UC determined the magnitude of intestinal inflammation and IL-1β-dependent type 17 immunity. The identification of an important contribution of IgG-FcγR-dependent inflammation to UC has therapeutic implications.

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Dean Clift

A Method for the Acute and Rapid Degradation of Endogenous Proteins

A three-step MTOC fragmentation mechanism facilitates bipolar spindle assembly in mouse oocytes

Restarting life: fertilization and the transition from meiosis to mitosis

Cytosolic Fc receptor TRIM21 inhibits seeded tau aggregation

A liquid-like spindle domain promotes acentrosomal spindle assembly in mammalian oocytes

Shugoshin biases chromosomes for biorientation through condensin recruitment to the pericentromere

Acute and rapid degradation of endogenous proteins by Trim-Away

Anti-commensal IgG Drives Intestinal Inflammation and Type 17 Immunity in Ulcerative Colitis

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