往期刊物2022
卷册: 12, 期号: 8
生物化学
Bsoft: Image Processing for Structural Biology
Bsoft:结构生物学的图像处理
Bsoft is a software package primarily developed for processing electron micrographs, with the goal of determining the structures of biologically relevant molecules, molecular assemblies, and parts of cells. However, it incorporates many ways to deal with images, from the mundane to very sophisticated algorithms. This article is an introduction into its use, illustrating that it is an extensive toolbox, for manipulating and understanding images. Bsoft has over 150 programs, allowing the user an infinite number of ways to process images. These programs can be executed on the command line, or through the interactive program called brun. The main visualization program is bshow, providing numerous ways to manipulate and interpret images. The primary aim is to provide the user with powerful capabilities, including processing large numbers of images. An important additional aim is to make it as accessible as possible, making it easier to deal with image formats and features, and enhance productivity.
生物物理学
Characterization of the Elasticity of CD4+ T Cells: An Approach Based on Peak Force Quantitative Nanomechanical Mapping
CD4+T细胞弹性的特征:一个基于峰值力定量纳米力学图的方法
CD4+ T cells are essential players in orchestrating the specific immune response against intracellular pathogens, and in inhibiting tumor development in an early stage. The activation of T cells is triggered by engagement of T cell receptors (TCRs). Here, CD3 and CD28 molecules are key factors, (co)stimulating signaling pathways essential for activation and proliferation of CD4+ T cells. T cell activation induces the formation of a tight mechanical bond between T cell and target cell, the so-called immunological synapse (IS). Due to this, mechanical cell properties, including stiffness, play a significant role in modulating cell functions. In the past, many approaches were made to investigate mechanical properties of immune cells, including micropipette aspiration, microplate-based rheometry, techniques based on deformation during cytometry, or the use of optical tweezers. However, the stiffness of T lymphocytes at a subcellular level at the IS still remains largely elusive.With this protocol, we introduce a method based on atomic force microscopy (AFM), to investigate the local cellular stiffness of T cells on functionalized glass/Polydimethylsiloxan (PDMS) surfaces, which mimicks focal stimulation of target cells inducing IS formation by T cells. By applying the peak force nanomechanical mapping (QNM) technique, cellular surface structures and the local stiffness are determined simultaneously, with a resolution of approximately 60 nm. This protocol can be easily adapted to investigate the mechanical impact of numerous factors influencing IS formation and T cell activation.Graphical abstract: Overview of the experimental workflow. Individual experimental steps are shown on the left, hands on and incubation times for each step are shown right.
Single Molecule Tracking Nanoscopy Extended to Two Colors with MTT2col for the Analysis of Cell-Cell Interactions in Leukemia
使用 MTT2col 将单分子跟踪纳米显微镜扩展到两种颜色,用于分析白血病中的细胞-细胞相互作用
Single molecule tracking (SMT) is a powerful technique to study molecular dynamics, and is particularly adapted to monitor the motion and interactions of cell membrane components. Assessing interactions among two molecular populations is classically performed by several approaches, including dual-color videomicroscopy, which allows monitoring of interactions through colocalization events. Other techniques, such as fluorescence recovery after photobleaching (FRAP), Förster resonance energy transfer (FRET), and fluorescence correlation spectroscopy (FCS), are also utilized to measure molecular dynamics.We developed MTT2col, a set of algorithmic tools extending multi-target tracing (MTT) to dual-color acquisition (https://github.com/arnauldserge1/MTT2col). In this protocol, we used MTT2col to monitor adhesion molecules at the contact between leukemic stem cells and stromal cells, a process involved in cancer resistance to chemotherapy and in relapse. Our dual-color single molecule protocol includes the following steps: (i) labeling molecules of interest with fluorescent probes, (ii) video-acquisition, (iii) analyses using our MTT2col in-house software, to obtain positions and trajectories, followed by (iv) detailed analyses of colocalization, distribution, and dynamic motion modes, according to the issues addressed. MTT2col is a robust and efficient SMT algorithm. Both MTT and MTT2col are open-source software that can be adapted and further developed for specific analyses.Graphical abstract:
癌症生物学
Low-viscosity Matrix Suspension Culture for Human Colorectal Epithelial Organoids and Tumoroids
用于人结直肠上皮类器官和类肿瘤的低粘度基质悬浮培养
Three-dimensional culture of human normal colorectal epithelium and cancer tissue as organoids and tumoroids has transformed the study of diseases of the large intestine. A widely used strategy for generating patient-derived colorectal organoids and tumoroids involves embedding cells in domes of extracellular matrix (ECM). Despite its success, dome culture is not ideal for scalable expansion, experimentation, and high-throughput screening applications. Our group has developed a protocol for growing patient-derived colorectal organoids and tumoroids in low-viscosity matrix (LVM) suspension culture. Instead of embedding colonic crypts or tumor fragments in solid ECM, these are grown suspended in medium containing only a low percentage of ECM. Compared with dome cultures, LVM suspension culture reduces the labor and cost of establishing and passaging organoids and tumoroids, enables rapid expansion, and is readily adaptable for high-throughput screening.Graphical abstract: Generation of organoids and tumoroids from human large intestine using LVM suspension culture (Created with BioRender.com).
Measurement of Cell Intrinsic TGF-β Activation Mediated by the Integrin αvβ8
整合素αvβ8介导的细胞固有TGF-β活化测定
Transforming growth factor beta (TGF-β) is a multi-functional cytokine that plays a significant role in multiple diseases, including fibrosis and tumor progression. Whilst the biologic effects of TGF-β are well characterized, it is unclear how TGF-β signaling is regulated to impart specific responses within certain cell types. One mechanism of regulation may be through TGF-β activation, since TGF-β is always expressed in a latent form (L-TGF-β). Campbell et al. recently presented a new structural model to demonstrate how the integrin αvβ8 might specifically control TGF-β activation and signaling. In this model, αvβ8 binds to cell surface L-TGF-β1 to induce a conformational change, which exposes mature TGF-β peptide to TGF-β receptors (TGF-βRs), allowing initiation of TGF-β signaling from within the latent complex. This model also predicts that TGF-β signaling would be directed specifically towards the TGF-β expressing cell surface. We sought to test the validity of the new structural model by creating a cell-based assay which utilizes luciferase TGF-β reporter cells (TMLC). TMLC cells express high levels of TGF-βRs, but do not express cell surface L-TGF-β. We modified TMLC reporter cells to express cell surface L-TGF-β1 in a mutant form, which prevents the release of mature TGF-β from the latent complex. The newly generated cell lines were then used in a novel functional assay to investigate whether integrin αvβ8 could potentiate cell intrinsic TGF-β signaling from within the latent complex in vitro.
细胞生物学
circFL-seq, A Full-length circRNA Sequencing Method
circFL-seq,一种全长circRNA的测序方法
Due to overlapping sequences with linear cognates, identifying internal sequences of circular RNA (circRNA) remains a challenge. Recently, we have developed a full-length circRNA sequencing method (circFL-seq) and computational pipeline, to profile ordinary and fusion circRNA at the isoform level. Compared to short-read RNA-seq, rolling circular reverse transcription and nanopore long-read sequencing of circFL-seq make circRNA reads more than tenfold enriched, and show advantages for identification of both short (<100 nt) and long (>2,000 nt) circRNA transcripts. circFL-seq allows identification of differential alternative splicing suggested wide application prospects for functional studies of internal sequences in circRNAs. In addition, the experimental protocol and computational pipeline of circFL-seq shows better sensitivity and precision for identification of back-splicing junctions than current long-read sequencing methods. Together, the accurate identification and quantification of full-length circRNAs makes circFL-seq a potential tool for large-scale screening of functional circRNAs.
发育生物学
Visualization and Purification of Caenorhabditis elegans Germ Granule Proteins Using Proximity Labeling
利用近似标记可视化和纯化秀丽隐杆线虫的胚芽颗粒蛋白
Membraneless organelles, such as germ granules and stress granules, are liquid-like condensates formed by phase transition. Recently, we and others have adopted proximity-based labeling methods to determine the composition of these membraneless compartments. Here, we describe the use of TurboID—an engineered promiscuous biotin ligase—to label and purify proteins localizing to Caenorhabditis elegans germ granules, known as P granules. We provide a detailed protocol for visualization of the subcellular localization of biotinylated proteins from dissected gonads, assessment of TurboID enrichment using streptavidin blots, and enrichment of biotinylated proteins under stringent conditions. Altogether, this protocol provides a workflow to unravel the proteome of C. elegans germ granules. Importantly, the assays described here can be applied to interrogate many membraneless organelles, in a diversity of living multicellular organisms.Graphical abstract:
Isolation of tdTomato Expressing Inter-follicular Epidermal Melanocytes or Keratinocytes from Mouse Tail Skin
从小鼠尾部皮肤中分离tdTomato表达滤泡间表皮黑色素细胞或角质形成细胞
The epidermis is the outermost layer of the skin. It is made up of mostly keratinocytes along with a small number of melanocytes and Langerhans cells. Melanocytes produce a pigment called melanin, which is transferred to the keratinocytes, and protects these cells from damage from UV radiation, as well as generating hair and skin colours. In this important relationship, keratinocytes exert control over melanocytes. Many questions regarding keratinocyte-melanocyte interactions have yet to be answered, and would benefit from study in model systems, to address diseases such as vitiligo and cutaneous melanoma. Most of the mouse is covered in fur and these areas lack the skin pigmenting inter-follicular epidermal (IFE) melanocytes. However, the mouse tail is pigmented analogously to human skin. Here, we present a method for isolating IFE melanocytes or keratinocytes expressing the tdTomato marker from the mouse tail, using fluorescence-activated cell sorting (FACS). The method involves firstly separating the tail skin epidermis from the dermis, and then digesting the epidermis to produce dissociated cells, which can then be sorted. These isolated cell populations can be studied using RNAseq or cultured in vitro. This protocol isolates IFE melanocytes or keratinocytes and immediately provides reasonable yields of cells, without the need to stain the cells for cell specific markers.
RNA Interference Method for Gene Function Analysis in the Japanese Rhinoceros Beetle Trypoxylus dichotomus
日本犀牛甲虫Trypoxylus dichotomus基因功能分析的RNA干扰方法
In the Japanese rhinoceros beetle Trypoxylus dichotomus, various candidate genes required for a specific phenotype of interest are listed by next-generation sequencing analysis. Their functions were investigated using RNA interference (RNAi) method, the only gene function analysis tool for T. dichotomus developed so far. The summarized procedure for the RNAi method used for T. dichotomus is to synthesize double-stranded RNA (dsRNA), and inject it in larvae or pupae of T. dichotomus. Although some dedicated materials or equipment are generally required to inject dsRNA in insects, the advantage of the protocol described here is that it is possible to inject dsRNA in T. dichotomus with one syringe.
免疫学
An Optimized Tat/Rev Induced Limiting Dilution Assay for the Characterization of HIV-1 Latent Reservoirs
一种优化的 Tat/Rev 诱导的限制稀释测定表征 HIV-1 潜伏储库
The administration of antiretroviral therapy (ART) leads to a rapid reduction in plasma viral load in HIV-1 seropositive subjects. However, when ART is suspended, the virus rebounds due to the presence of a latent viral reservoir. Several techniques have been developed to characterize this latent viral reservoir. Of the various assay formats available presently, the Tat/Rev induced limiting dilution assay (TILDA) offers the most robust and technically simple assay strategy. The TILDA formats reported thus far are limited by being selective to one or a few HIV-1 genetic subtypes, thus, restricting them from a broader level application. The novel TILDA, labelled as U-TILDA ('U' for universal), can detect all the major genetic subtypes of HIV-1 unbiasedly, and with comparable sensitivity of detection. U-TILDA is well suited to characterize the latent reservoirs of HIV-1 and aid in the formulation of cure strategies.Graphical abstract:
微生物学
Production of Recombinant Hepatitis B virus (HBV) and Detection of HBV in Infected Human Liver Organoids
重组乙型肝炎病毒 (HBV) 的产生和受感染的人类肝脏类器官中 HBV 的检测
The absence of long term, primary untransformed in vitro models that support hepatitis B virus (HBV) infection and replication have hampered HBV pre-clinical research, which was reflected in the absence of a curative therapy until recently. One of the limitations for in vitro HBV research has been the absence of high titer and pure recombinant HBV stocks, which, as we describe here, can be generated using simple, and reproducible protocols. In addition to infection of more conventional in vitro and in vivo liver model systems, recombinant high titer purified HBV stocks can also be used to efficiently infect differentiated human liver organoids, whose generation, maintenance, and infection is discussed in detail in a companion organoid protocol. Here, we also describe the protocols for the detection of specific viral read-outs, including HBV DNA in the supernatant of the cultures, covalently closed circular DNA (cccDNA) from intracellular DNA preparations, and HBV viral proteins and viral RNA, which can be detected within the cells, demonstrating the presence of a complete viral replication cycle in infected liver organoids. Although an evolving platform, the human liver organoid model system presents great potential as an exciting new tool to study HBV infection and progression to hepatocellular carcinoma (HCC) in primary cells, when combined with the use of high-titer and pure recombinant HBV stock for infection.Graphical abstract:
分子生物学
An Improved EMSA-based Method to Prioritize Candidate cis-REs for Further Functional Validation
一种改进的基于EMSA的方法来优先考虑候选的顺式RE,以进一步验证其功能
Cells are the complex product of gene expression programs that involve the coordinated transcription of thousands of genes controlled by cis-regulatory elements (cis-REs). Therefore, identification of cis-REs is the key to decipher the mechanisms underlying the regulation of gene expression. Here, we describe a simple and time-effective protocol of fine-mapping cis-REs by using an electrophoresis mobility shift assay (EMSA)-based, in vitro, high-throughput (HTP) technique called regulatory element-sequencing (Reel-seq). Reel-seq can be applied to identify cis-REs at a high resolution and sensitivity over large genome regions, in a systematic and continuous manner. It can be used to prioritize candidate cis-REs as a complement to the existing approaches, such as massive parallel reporter assay (MPRA), chromatin immunoprecipitation DNA-sequencing (ChIP-seq), and the assay for transposase-accessible chromatin sequencing (ATAC-seq).Graphical abstract: Generation of the Reel-seq Library 1 and 2 (A) and identification of cis-REs by an electrophoresis mobility shift assay (EMSA)-based Reel-seq screen (B). NE: nuclear extract; NGS: next generation sequencing.
神经科学
High Throughput Blood-brain Barrier Organoid Generation and Assessment of Receptor-Mediated Antibody Transcytosis
高通量血脑屏障类器官的产生和受体介导的抗体转胞吞作用的评估
Targeting receptor-mediated transcytosis (RMT) is a successful strategy for drug delivery of biologic agents across the blood-brain barrier (BBB). The recent development of human BBB organoid models is a major advancement to help characterize the mechanisms of RMT and thus accelerate the design of brain delivery technologies. BBB organoids exhibit self-organization, which resembles the architecture of the neurovascular unit, and low paracellular permeability, due to the formation of tight junctions between endothelial cells. However, current methods of organoid generation have low throughput, exhibit substantial heterogeneity across experiments, and require extensive manual handling. These limitations prevent the use of BBB organoids as a screening tool for discovery and optimization of therapeutic molecules. In this protocol, we use hydrogel-based arrays to generate human BBB organoids, with a 35-fold increase in organoid yield as compared to previous protocols using 96-well plates. We incubate BBB organoid arrays with monoclonal antibody-based constructs and use a custom semi-automated imaging assay to assess RMT within the organoid core. The experimental and analytical tools described in this protocol provide a scalable platform that can be incorporated in the early stages of drug discovery to accelerate the development and optimization of brain delivery technologies to cross the BBB.
植物科学
Apoplastic Expression of CARD1-ecto Domain in Nicotiana benthamiana and Purification from the Apoplastic Fluids
本氏烟草中 CARD1-ecto 结构域的质外体表达及质外体液的纯化
The protein expression and purification process is an essential initial step for biochemical analysis of a protein of interest. Traditionally, heterologous protein expression systems (such as E. coli, yeast, insect cells, and cell-free) are employed for plant protein expression, although a plant expression system is often desirable for plant proteins, to ensure proper post-translational modifications. Here, we describe a method to express and purify the ectodomain of one of the leucine-rich repeat receptor-like kinase called CARD1/HPCA1, from Nicotiana benthamiana apoplastic fluid. First, we express His-tagged CARD1 ectodomain in the apoplastic space of N. benthamiana by the Agroinfiltration method. Then, we collect apoplastic fluids from the leaves and purify the His-tagged protein by Ni2+-affinity chromatography. In addition to plant-specific post-translational modifications, protein accumulated in the plant apoplastic space, rather than in the cytosolic space, should be kept under an oxidizing environment. Such an environment will help to maintain the property of intrinsic disulfide bonds in the protein of interest. Further, purification from the apoplastic fluids, rather than the total protein extract, will significantly reduce contaminants (for instance RuBisCO) during protein extraction, and simplify downstream processes. We envisage that our system will be useful for expressing various plant proteins, particularly the apoplastic or extracellular regions of membrane proteins.
Application of Cadaverine to Inhibit Biotin Biosynthesis in Plants
尸胺在抑制植物生物素合成中的应用
Biotin is an essential vitamin in plants. However, characterization of biotin deficiency has been limited by embryo lethality in mutants, which can only be rescued by supplementation of biotin. Here, we describe a protocol to characterize biotin deficiency in Arabidopsis thaliana through application of the polyamine cadaverine. Cadaverine induces changes in primary root growth. Protein biotinylation in Arabidopsis seedlings can be quantified through an assay similar to a western blot, in which protein biotinylation is detected by a streptavidin probe. This technique provides a chemical means of inhibiting biotin synthesis, allowing for further characterization of biotin deficiency on a physiological and molecular level.