Application of PI-deconvolution to the screening of protein ligand combinatorial libraries using the yeast-two-hybrid assay

Aparicio de Navaraez, Alberto

28 November 2008

Reagents that bind proteins are applicable in biology for detection of molecules, perturbation of signaling pathways and development of small-molecule pharmaceuticals. Protein ligands interact with proteins, inhibiting or altering their function. They are isolated from combinatorial libraries to interact with a specific target, using selection techniques such as phage display or yeast-two-hybrid assay. For the latter, one inconvenience is the detection of false positives, which can be solved by screening pools containing the samples to be tested, instead of individual samples. Samples are distributed in the pools following a pooling design. The PI-deconvolution pooling design was developed to screen cDNA libraries using the yeast-two-hybrid assay, which are smaller in size than protein ligand combinatorial libraries. Modifications to the PI-deconvolution screening technique were developed to adapt it to the screening of protein ligand combinatorial libraries using the yeast-two-hybrid assay. Every spot of the array containing the combinatorial library was randomly pooled. However, the yeast-two-hybrid assay loses sensitivity when strains are pooled. As PI-deconvolution requires detecting every interaction, we determined the optimal amount of library members that can be pooled in a spot, and the optimal number of replicates to ensure the detection of an interaction.<p> The yeast-two-hybrid assay was used to perform a screening of a combinatorial library with seven domains of BCR-ABL, which were pooled according to PI-deconvolution. BCR-ABL is a chimeric protein with unregulated kinase activity that is responsible for chronic myelogenous leukemia. The scaffold used in the combinatorial library was an engineered intein that forms lariat peptides. After a screening of this library was performed, positive interactions were detected in 775 spots of the arrays that contained 1432 positive hits. Only 53 spots were deconvoluted. The coding sequences of the lariat peptides were determined for 23 lariat peptides interacted with the GEF domain of BCR, and for ABL, two with the FABD domain, one with the SH1 domain, and one with the SH3 domain. Finally, a &beta;-galactosidase assay was performed to assess the affinity of the lariat peptides for their target.<p> The isolated lariat peptides are potential inhibitors of BCR-ABL that can have therapeutic potential. This study will improve other screenings of combinatorial libraries with the yeast-two-hybrid assay.

combinatorial chemistry

yeast-two-hybrid assay

chronic myelogenous leukemia

bcr-abl inhibitor

Identification of protein-protein interactions in the type two secretion system of <i>aeromonas hydrophila</i>

Zhong, Su

09 March 2009

The type II secretion system is used by many pathogenic and non-pathogenic bacteria for the extracellular secretion of enzymes and toxins. <i>Aeromonas hydrophila</i> is a Gram-negative pathogen that secretes proteins via the type II secretion system.<p> In the studies described here, a series of yeast two-hybrid assays was performed to identify protein-protein interactions in the type II secretion system of <i>A. hydrophila</i>. The periplasmic domains of ExeA and ExeB were assayed for interactions with the periplasmic domains of Exe A, B, C, D, K, L, M, and N. Interactions were observed for both ExeA and ExeB with the secretin ExeD in one orientation. In addition, a previously identified interaction between ExeC and ExeD was observed. In order to further examine and map these interactions, a series of eight two-codon insertion mutations in the amino terminal domain of ExeD was screened against the periplasmic domains of ExeA and ExeB. As a result, the interactions were verified and mapped to subdomains of the ExeD periplasmic domain. To positively identify the region of ExeD involved in the interactions with ExeA, B, C and D, deletion mutants of ExeD were constructed based on the two-codon insertion mutation mapping of subdomains of the ExeD periplasmic domain, and yeast two-hybrid assays were carried out. The results showed that a fragment of the periplasmic domain of ExeD, from amino acid residue 26 to 200 of ExeD, was involved in the interactions with ExeA, B and C. As an independent assay for interactions between ExeAB and the secretin, His-tagged derivatives of the periplasmic domains of ExeA and ExeB were constructed and co-purification on Ni-NTA agarose columns was used to test for interactions with untagged ExeD. These experiments confirmed the interaction between ExeA and ExeD, although there was background in the co-purification test.<p> These results provide support for the hypothesis that the ExeAB complex functions to organize the assembly of the secretin through interactions between both peptidoglycan and the secretin that result in its multimerization into the peptidoglycan and outer membrane layers of the envelope.

protein-protein interaction

type two secretion system

Aeromonas hydrophila

yeast two-hybrid assay

co-purification

Application of PI-deconvolution to the screening of protein ligand combinatorial libraries using the yeast-two-hybrid assay

Aparicio de Navaraez, Alberto

28 November 2008

Reagents that bind proteins are applicable in biology for detection of molecules, perturbation of signaling pathways and development of small-molecule pharmaceuticals. Protein ligands interact with proteins, inhibiting or altering their function. They are isolated from combinatorial libraries to interact with a specific target, using selection techniques such as phage display or yeast-two-hybrid assay. For the latter, one inconvenience is the detection of false positives, which can be solved by screening pools containing the samples to be tested, instead of individual samples. Samples are distributed in the pools following a pooling design. The PI-deconvolution pooling design was developed to screen cDNA libraries using the yeast-two-hybrid assay, which are smaller in size than protein ligand combinatorial libraries. Modifications to the PI-deconvolution screening technique were developed to adapt it to the screening of protein ligand combinatorial libraries using the yeast-two-hybrid assay. Every spot of the array containing the combinatorial library was randomly pooled. However, the yeast-two-hybrid assay loses sensitivity when strains are pooled. As PI-deconvolution requires detecting every interaction, we determined the optimal amount of library members that can be pooled in a spot, and the optimal number of replicates to ensure the detection of an interaction.<p> The yeast-two-hybrid assay was used to perform a screening of a combinatorial library with seven domains of BCR-ABL, which were pooled according to PI-deconvolution. BCR-ABL is a chimeric protein with unregulated kinase activity that is responsible for chronic myelogenous leukemia. The scaffold used in the combinatorial library was an engineered intein that forms lariat peptides. After a screening of this library was performed, positive interactions were detected in 775 spots of the arrays that contained 1432 positive hits. Only 53 spots were deconvoluted. The coding sequences of the lariat peptides were determined for 23 lariat peptides interacted with the GEF domain of BCR, and for ABL, two with the FABD domain, one with the SH1 domain, and one with the SH3 domain. Finally, a &beta;-galactosidase assay was performed to assess the affinity of the lariat peptides for their target.<p> The isolated lariat peptides are potential inhibitors of BCR-ABL that can have therapeutic potential. This study will improve other screenings of combinatorial libraries with the yeast-two-hybrid assay.

combinatorial chemistry

yeast-two-hybrid assay

chronic myelogenous leukemia

bcr-abl inhibitor

New Insights Into the Role of Equine Infectious Anemia Virus S2 Protein in Disease Expression

Covaleda Salas, Lina M.

2010 May 1900

Equine infectious anemia virus (EIAV) is an important animal model to study the contribution of macrophages in viral persistence during lentiviral infections. EIAV is unique amongst the lentiviruses in that it causes a rapid, rather than the very slow disease progression, characteristic of other lentiviral infections. The accessory gene, S2, unique to EIAV, is an important determinant in viral pathogenesis. A functional S2 gene is required to achieve high-titer viremia and the development of disease in infected horses. Despite its essential role, the mechanisms by which S2 influences EIAV pathogenesis remain elusive. The goal of this research was to gain insight into the role of S2 in pathogenesis. To accomplish this goal we: (i) Examined the effects of EIAV and its S2 protein in the regulation of the cytokine and chemokine responses in macrophages, (ii) Assessed the influence of EIAV infection and the effect of S2 on global gene expression in macrophages and (iii) Identified host cellular proteins that interact with S2 as a starting point for the identification of host factors implicated in S2 function. The results from this study provide evidence for a role of S2 in enhancing a proinflammatory cytokine and chemokine response in infected macrophages. Specifically, S2 enhances the expression of IL-1 alpha, IL-1 beta IL-8, MCP-2, MIP-1 beta, IP-10 and a newly discovered cytokine, IL-34. Involvement of S2 in cytokine and chemokine dysregulation may contribute to disease development by optimizing the host cell environment to promote viral dissemination and replication. Microarray analyses revealed an interesting set of differentially expressed genes upon EIAV infection. Genes affected by EIAV were involved in the immune response, transcription, translation, cell cycle and cell survival. Finally, we used the yeast two-hybrid system to identify S2 host cellular interacting proteins. We identified osteosarcoma amplified 9 (OS-9) and proteasome 26S ATPase subunit 3 (PSMC3) proteins as interacting partners of S2. Additional evidence is needed to demonstrate the physiological relevance of these interactions in vivo. In summary, the results from this study contribute towards our understanding of the role S2 in disease expression and allow the formulation of new hypotheses as to the potential mechanisms of action of S2 during EIAV infection.

EIAV

Cytokines

Chemokines

Macrophage

Gene expression

Dysregulation

Real-time PCR

Microarray, Yeast two-hybrid system

Identification and characterization of Drosophila homolog of Rho-kinase

Mizuno, Tomoaki, Amano, Mutsuki, Kaibuchi, Kozo, Nishida, Yasuyoshi

01 October 1999

No description available.

Rho effector

actin cytoskeleton

morphogenesis

low stringency PCR

two-hybrid analysis

in vitro kinase assay

IDENTIFICATION AND CHARACTERIZATION OF PROMYELOCYTIC LEUKEMIA (PML)-ISOFORM 1 SPECIFIC PROTEIN-PROTEIN INTERACTIONS

Tse, Brenda

18 April 2011

Loss of the promyelocytic leukemia (PML) protein is associated with genomic instability/cancer. There are several isoforms of the PML protein that localize in PML nuclear bodies (PML NBs). How each individual isoform contributes to the functions of PML NBs is unknown. The objective of this study was to identify and characterize PML isoform-I (PML-I) specific protein-protein interactions. Using yeast two-hybrid screens, several interacting partners of PML-I were identified that play roles in translational regulation, including eukaryotic initiation factor 3 subunit K (eIF3K). Our studies demonstrated that eIF3K interacts with PML-I in vitro and in vivo. Through its interaction with eIF3K, overexpression of PML-I resulted in the concomitant increase in eIF3K protein levels in mammalian cells. This suggests that PML-I may be involved in regulating eIF3K protein translation or stability, which in turn could affect translation of specific mRNAs or global translation in cancer cells with reduced expression of PML-I.

PML and PML isoforms

PML nuclear bodies

eIF3K

Translation initiation

Yeast two-hybrid screen

A Role for Bclaf1 in mRNA Processing and Skeletal Muscle Differentiation

Sarras, Haya

19 March 2013

Bcl-2 associated factor 1 (Bclaf1; previously known as Btf) is a nuclear protein that was originally identified as an interacting partner for the adenoviral anti-apoptotic Bcl-2 family member E1B-19K. Surprisingly, Bclaf1 does not share structural homology with the Bcl-2 family of proteins, but rather exhibits protein structure and subcellular distribution patterns reminiscent of proteins that regulate mRNA processing. In addition, Bclaf1 appears to be expressed at high levels in skeletal muscle and was recently shown to associate with emerin, a protein linked to muscular dystrophy. Despite these observations, roles for Bclaf1 in RNA processing and/or skeletal muscle differentiation remain to be elucidated. In an effort to identify new roles for Bclaf1 I conducted protein-protein interaction screens to identify candidate interacting proteins and pathways. I identified p32 and 9G8 as novel interacting partners for Bclaf1. Additional subsequent experiments demonstrated an interaction of Bclaf1 with tip associated protein (Tap) and association of Bclaf1 with ribonucleoprotein complexes. Given that all of these proteins have been linked to mRNA processing, a role for Bclaf1 in this pathway was investigated. Using several approaches, I demonstrated that Bclaf1 is able to associate with splicing complexes and mRNA species at various stages of processing. The function of Bclaf1 in the context of skeletal muscle differentiation was also explored using skeletal muscle cell lines and primary mouse myoblasts. Skeletal muscle differentiation led to a dramatic decrease in nuclear Bclaf1 steady-state protein, with the unexpected appearance of smaller Bclaf1 protein species that accumulated in the cytoplasm during differentiation due to cleavage by caspases. Furthermore, Bclaf1 depletion in a myoblast cell line led to increased myoblast fusion and myofiber dimensions during differentiation. Overall our findings indicate roles for Bclaf1 in the skeletal muscle differentiation program and in molecular events that regulate pre-mRNA splicing and related events.

Bclaf1

myoblasts

pre-mRNA processing

skeletal muscle

yeast two-hybrid

apoptosis

0419

A Role for Bclaf1 in mRNA Processing and Skeletal Muscle Differentiation

Sarras, Haya

19 March 2013

Bcl-2 associated factor 1 (Bclaf1; previously known as Btf) is a nuclear protein that was originally identified as an interacting partner for the adenoviral anti-apoptotic Bcl-2 family member E1B-19K. Surprisingly, Bclaf1 does not share structural homology with the Bcl-2 family of proteins, but rather exhibits protein structure and subcellular distribution patterns reminiscent of proteins that regulate mRNA processing. In addition, Bclaf1 appears to be expressed at high levels in skeletal muscle and was recently shown to associate with emerin, a protein linked to muscular dystrophy. Despite these observations, roles for Bclaf1 in RNA processing and/or skeletal muscle differentiation remain to be elucidated. In an effort to identify new roles for Bclaf1 I conducted protein-protein interaction screens to identify candidate interacting proteins and pathways. I identified p32 and 9G8 as novel interacting partners for Bclaf1. Additional subsequent experiments demonstrated an interaction of Bclaf1 with tip associated protein (Tap) and association of Bclaf1 with ribonucleoprotein complexes. Given that all of these proteins have been linked to mRNA processing, a role for Bclaf1 in this pathway was investigated. Using several approaches, I demonstrated that Bclaf1 is able to associate with splicing complexes and mRNA species at various stages of processing. The function of Bclaf1 in the context of skeletal muscle differentiation was also explored using skeletal muscle cell lines and primary mouse myoblasts. Skeletal muscle differentiation led to a dramatic decrease in nuclear Bclaf1 steady-state protein, with the unexpected appearance of smaller Bclaf1 protein species that accumulated in the cytoplasm during differentiation due to cleavage by caspases. Furthermore, Bclaf1 depletion in a myoblast cell line led to increased myoblast fusion and myofiber dimensions during differentiation. Overall our findings indicate roles for Bclaf1 in the skeletal muscle differentiation program and in molecular events that regulate pre-mRNA splicing and related events.

Bclaf1

myoblasts

pre-mRNA processing

skeletal muscle

yeast two-hybrid

apoptosis

0419

Elucidation Of R Gene Mediated Yellow Rust Disease Resistance Mechanism In Wheat By Dual Bait Yeast Two-hybrid Analysis

Yildirim, Figen

01 August 2005

Yellow rust, caused by Puccinia striiformis Westend. f. sp. tritici Eriksson is one of the most severe leaf diseases of wheat. Aim of this study is to illuminate the downstream signaling pathways upon incompetible infection of rust pathogen in wheat, thus to understand the genes involved in resistance mechanism. The strategy used is the dual bait yeast two-hybrid analysis which is the most powerful method for in vivo detection of protein-protein interactions. The bait proteins used are / the domains of Yr10 yellow rust resistance gene, Rad6 gene which is considered to have a critical role in R gene mediated signaling pathway, and WR5 gene fragment which is an unknown protein having homology to the WD40 repeat containing protein with apoptosis related activity. Screening of a yeast prey library with these baits revealed proteins having mostly apoptosis related functions (SRP72, POR1, CSE1), translation initiation control in response to stress conditions (Gcn2p, Eap1p), phosphorylation (SKY1) and dephosphorylation activities (GAC1), cell cycle control (FAR1), oxidative stress control (OXR1), protein degradation control (TOM1), protein folding control (CPR7) and ion homeostasis in the cell (POR1, GAC1). The significance of the study can be summarized as i) being the first yeast two hybrid analysis of a wheat R gene, ii) being able to detect interacting partners with anticipated functions, iii) most importantly, initiating further detailed analysis of the key interactors.

QH Genetics 426-470

Identification of TEF cofactor(s) in skeletal muscles utilizing yeast two hybrid system /

Zhang, Aijing.

January 2004

Thesis (M.S.)--University of Missouri--Columbia, 2004. / "May 2004." Typescript. Vita. Includes bibliographical references (leaves 70-75). Also issued on the Internet.