Improved Elution Conditions for Native Co-Immunoprecipitation

Native immunoprecipitation followed by protein A-mediated recovery of the immuno-complex is a powerful tool to study protein-protein interactions. A limitation of this technique is the concomitant recovery of large amounts of immunoglobulin, which interferes with down-stream applications such as mass spectrometric analysis and Western blotting. Here we report a detergent-based "soft" elution protocol that allows effective recovery of immunoprecipitated antigen and binding partners, yet avoids elution of the bulk of the immunoglobulin.We assessed the performance of the soft elution protocol using immunoprecipitation of Adaptor protein complex 1 (AP-1) and associated proteins as a test case. Relative to conventional elution conditions, the novel protocol substantially improved the sensitivity of mass spectrometric identification of immunoprecipitated proteins from unfractionated solution digests. Averaging over three independent experiments, Mascot scores of identified AP-1 binding partners were increased by 39%. Conversely, the estimated amount of recovered immunoglobulin was reduced by 44%. We tested the protocol with five further antibodies derived from rabbit, mouse and goat. In each case we observed a significant reduction of co-eluting immunoglobulin.The soft elution protocol presented here shows superior performance compared to standard elution conditions for subsequent protein identification by mass spectrometry from solution digests. The method was developed for rabbit polyclonal antibodies, but also performed well with the tested goat and mouse antibodies. Hence we expect the soft elution protocol to be widely applicable

CVAK104 is a Novel Regulator of Clathrin-mediated SNARE Sorting

Clathrin-coated vesicles (CCVs) mediate transport between the plasma membrane, endosomes and the trans Golgi network. Using comparative proteomics, we have identified coated-vesicle-associated kinase of 104 kDa (CVAK104) as a candidate accessory protein for CCV-mediated trafficking. Here, we demonstrate that the protein colocalizes with clathrin and adaptor protein-1 (AP-1), and that it is associated with a transferrin-positive endosomal compartment. Consistent with these observations, clathrin as well as the cargo adaptors AP-1 and epsinR can be coimmunoprecipitated with CVAK104. Small interfering RNA (siRNA) knockdown of CVAK104 in HeLa cells results in selective loss of the SNARE proteins syntaxin 8 and vti1b from CCVs. Morpholino-mediated knockdown of CVAK104 in Xenopus tropicalis causes severe developmental defects, including a bent body axis and ventral oedema. Thus, CVAK104 is an evolutionarily conserved protein involved in SNARE sorting that is essential for normal embryonic development

A novel disorder reveals clathrin heavy chain-22 is essential for human pain and touch development

Congenital inability to feel pain is very rare but the identification of causative genes has yielded significant insights into pain pathways and also novel targets for pain treatment. We report a novel recessive disorder characterized by congenital insensitivity to pain, inability to feel touch, and cognitive delay. Affected individuals harboured a homozygous missense mutation in CLTCL1 encoding the CHC22 clathrin heavy chain, p.E330K, which we demonstrate to have a functional effect on the protein. We found that CLTCL1 is significantly upregulated in the developing human brain, displaying an expression pattern suggestive of an early neurodevelopmental role. Guided by the disease phenotype, we investigated the role of CHC22 in two human neural crest differentiation systems; human induced pluripotent stem cell-derived nociceptors and TRKB-dependant SH-SY5Y cells. In both there was a significant downregulation of CHC22 upon the onset of neural differentiation. Furthermore, knockdown of CHC22 induced neurite outgrowth in neural precursor cells, which was rescued by stable overexpression of small interfering RNA-resistant CHC22, but not by mutant CHC22. Similarly, overexpression of wild-type, but not mutant, CHC22 blocked neurite outgrowth in cells treated with retinoic acid. These results reveal an essential and non-redundant role for CHC22 in neural crest development and in the genesis of pain and touch sensing neurons

Isolation of clathrin-coated vesicles from tissue culture cells

The study of clathrin-coated vesicles (CCVs) isolated from various organs has revealed the identities and important features of many of the factors involved in membrane trafficking. The development of isolation methods using cultured cell lines has made it possible to manipulate the source material before isolation to ask important questions about the roles of these factors and the pathways in which they are involved. We discuss here the advantages and limitations of the use of cultured cell lines for the isolation of CCVs

Using in-gel digestion and an Orbitrap mass spectrometer to analyze the proteome of clathrin-coated vesicles

The characterization of clathrin-coated vesicles (CCVs), including the effects of genetic or biochemical manipulations on their composition, can be studied by mass spectrometry analysis of HeLa cell fractions enriched for CCVs. This protocol describes the preparation of samples by tryptic in-gel digest and peptide extraction followed by analysis in an Orbitrap mass spectrometer

Using in-solution digestion, peptide fractionation, and a Q exactive mass spectrometer to analyze the proteome of clathrin-coated vesicles

The characterization of clathrin-coated vesicles (CCVs), including the effects of genetic or biochemical manipulations on their composition, can be studied by mass spectrometry analysis of HeLa cell fractions enriched for CCVs. This protocol describes the preparation of samples by in-solution proteolytic digest and subsequent peptide fractionation, followed by analysis in a Q Exactive mass spectrometer

Isolating HeLa cell fractions enriched for clathrin-coated vesicles

HeLa cell lines can be experimentally manipulated using drugs or gene-silencing techniques such as RNA interference. Fractions enriched for clathrin-coated vesicles (CCVs) can be isolated from these cell lines and used to study the effects of these manipulations on the composition of CCVs. This protocol, originally developed in the laboratory of Margaret Robinson (Cambridge, United Kingdom), describes the preparation of a HeLa cell fraction that is enriched for a mixed population of CCVs and is suitable for analysis by mass spectroscopy, western blotting, or electron microscopy