TRPV1: a therapy target that attracts the pharmaceutical interests.

TRPV1 is a non-selective cation channel gated by noxious heat, vanilloids and extracellular protons, and act as an important signal integrator in sensory nociceptors. Because of its integrative signaling properties in response to inflammatory stimuli, TRPV1 antagonists are predicted to inhibit the sensation of ongoing or burning pain that is reported by patients suffering from chronic pain, therefore offering an unprecedented advantage in selectively inhibiting painful signaling from where it is initiated. In this chapter, we firstly summarize the physiological and pathological roles of TRPV1 and then describe the pharmacology of TRPV1 agonists and antagonists. Finally, we give an update and the status on TRPV1 therapies that have progressed into clinical trials.

Development of a generic transient transfection process at 100 L scale.

We have developed a generic transient transfection process at 100 L scale, using HEK293-EBNA cells and PEI as the transfection reagent for the production of recombinant IgG. The process, including large-scale plasmid preparation, expression at bioreactor scale, capture, purification and, if necessary, endotoxin removal allows reproducible production of more than 0.5 g IgG for in vitro and in vivo studies. We compared the performance of two HEK cell lines, investigated the effect of conditioned medium, optimized the DNA:PEI ratio and implemented a feed strategy to prolong the culture time to increase product yield. The transient transfection protocol developed enables a closed process from seeding culture to protein capture. The challenge of performing a medium exchange before transfection at large scale is solved by applying a continuous centrifugation step between the seeding bioreactor and the production bioreactor. After 7-8 days the harvest and capture is performed in a one-step operation using a Streamline expanded bed chromatography system. Following a polishing step the purified antibody is transferred to the final formulation buffer. The method has shown to be reproducible at 10, 50, and 100 L scale expressing between 5 and 8 mg L(-1) IgG.

Optimal conditions for freezing CHO-S and HEK293-EBNA cell lines: influence of Me2SO, freeze density, and PEI-mediated transfection on revitalization and growth of cells, and expression of recombinant protein.

To avoid the time consuming, labor intensive seed-train expansion and to improve production reliability and consistency, portions of bulk cryopreserved cells from the same cultivation can be utilized as inocula or alternatively may be used to undertake transient transfections for large-scale bioreactor production. In this study, the conditions for large-scale freezing in cryobags were optimized utilizing a design of experiment approach. We showed that relatively high density of 30-40 x 10(6) cells/mL and relatively low Me(2)SO concentrations of 5-6% in the freezing media are optimal to freeze HEK293-EBNA and CHO-S cells in a controlled manner in order to achieve high viable cell recovery and growth post-thawing. The immediate transfer of freshly thawed cells into culture medium resulted in better cell growth compared to cells that were centrifuged in order to remove Me(2)SO. This was the case as long as the residual Me(2)SO did not exceed 0.2-0.3%. The best time to perform transient 25 kDa polyethylenimine-mediated transfection of pCEP4-EGFP plasmid into freshly thawed, one-step inoculated cells is after 72-96 h in culture. At this time point, the numbers of EGFP-positive cells in the freshly thawed culture mimic perfectly that of cells grown continuously. Finally, our data showed that it is possible to freeze transiently polyethyleneimine-transfected HEK293-EBNA cells and maintain growth rate and expression of recombinant protein following thawing. The optimal time point for freezing cells was 4 h after transfection.

Metalloproteinase activity is the sole factor responsible for the growth-promoting effect of conditioned medium in Trichoplusia ni insect cell cultures.

Conditioned medium (CM) taken from a serum-free culture of Trichoplusia ni (BTI-Tn-5B1-4, High Five) cells on days 2 and 3, shortened the lagphase and increased the maximum cell density when added to T. ni cultures with low-inoculum cell density. Gel filtration fractions of CM, eluting at around 45kDa, stimulated cell proliferation even better than CM. A protein in the gel filtration fraction was identified by N-terminal amino acid sequencing as a proteinase, related to a snake venom metalloproteinase. Casein zymography showed, multiple metalloproteinase bands between 48 and 25kDa, as well as precursor forms above 48kDa. Metalloproteinase bands below the main band at 48kDa were autocatalytic degradation products. Metalloproteinase activity was the sole factor responsible for the growth stimulating effect of CM as shown by using the specific metalloproteinase inhibitor dl-thiorphan. Metalloproteinases have recently been shown to release growth factors from sequestering extracellular proteins. We propose that the metalloproteinase is involved in autocrine regulation of T. ni proliferation in serum-free media. In addition, a gel filtration fraction of CM, eluting at about 10kDa, inhibited cell growth. Apart from a lysozyme precursor protein and a cyclophilin-like protein, a kazal-type proteinase inhibitor could be identified in this fraction.

Optimisation and evaluation of a high-throughput mammalian protein expression system.

Transient transfection of mammalian cells with episomal vectors is a very useful method for producing high levels of recombinant proteins. Transient systems remove the need for the laborious and time-consuming process of creating stable cell lines. Here, we describe the optimisation and evaluation of a high-throughput transient expression system in HEK293-EBNA cells. The process was developed for the expression of 10 constructs simultaneously in deep-well plates and subsequent purification using 96-well plate affinity chromatography. This enabled multiple combinations of different constructs, vectors, and expression conditions to be studied in parallel.

Effects of pH, salt and time on ligand binding properties of overexpressed melanocortin 4 receptor.

The G-protein coupled melanocortin 4 receptor (MC4r) plays an important role in the energy metabolism. We overexpressed the MC4r in CHO cells and performed characterisation studies on the cell membranes to determine functional stability and ligand binding properties of the receptor. The affinity for the ligands [Nle4, d-Phe7]-alphaMSH and MTII was lost below pH 6 but could be restored by returning to physiological pH. Increasing NaCl concentration up to 1 M had little influence on the binding of either ligand. At neutral pH, physiological salt concentration and 4 degrees C the ligand affinity of the receptor was stable for up to 6 days. These findings will facilitate design of purification methods for the receptor.

Process development for functional membrane receptor production in mammalian cells.

Two model G-protein coupled membrane receptors (GPCRs), aserotonin (5HT) and a metabotropic glutamate (mGlu) receptor, stablyexpressed in CHO cells were used to characterize cultureconditions for maximum receptor expression and functionalactivity in membrane preparations. Expression levels of the5HT receptor were affected by the growth phase of the cellculture. Maximum receptor density, as measured by ligandbinding per mg membrane protein, was observed when cells wereharvested in late exponential growth phase. Expression couldbe increased further by addition of 10 mM sodium butyrate andincubation at 31 degrees C for 24 hours prior to cellharvest. In contrast, functional activity as determined byagonist-stimulated GTPgammaS binding was independent of the growthrate. For both receptors, butyrate treatment at decreasedtemperature negatively affected functional activity. The mGlureceptor membranes lost functional activity considerably whenthe cells were cultured in an agitated system either onmicrocarriers or as aggregates in suspension. Functionalactivity could be restored and further improved compared to acontrol grown in T-flasks when the cell culture was incubatedat 31 degrees C for 48 hours following a complete mediumexchange and omission of sodium butyrate.