Susceptibility to AcMNPV and Expression of Recombinant Proteins by a Novel Cell Clone Derived from a Trichoplusia ni QAU-BTI-Tn9-4s Cell Line

It is well known that Tn5B1-4 (commercially known as the High Five) cell line is highly susceptible to baculovirus and provides superior production of recombinant proteins when compared to other insect cell lines.But the characteristics of the cell line do not always remain stable and may change upon continuous passage.Recently an alphanodavirus,named Tn5 Cell Line Virus (or TNCL Virus),was identified in High Five cells in particular.Therefore,we established a new cell line,QB-Tn9-4s,from Trichoplusia ni,which was determined to be free of TNCL virus by RT-PCR analysis.In this paper,we describe the development of a novel cell clone,QB-CL-B,from a low passage QB-Tn9-4s cell line and report its susceptibility to AcMNPV,and the level of recombinant protein production.This cell clone was similar to its parental cells QB-Tn9-4s and Tn5B1-4 cells in morphology and growth rate;although it also showed approximately the same responses to AcMNPV infection and production of occlusion bodies,there were higher levels of recombinant protein production in comparison to QB-Tn9-4s (parental cells) and High5 cells.

Establishment, Growth kinetics, and Susceptibility to AcMNPV of Heat Tolerant Lepidopteran Cell Lines

Lepidopteran heat-tolerant (ht) cell lines have been obtained with sf-9, sf-21 and several Bombyx cells. They have a distinct karyotype, membrane lipid composition, morphology and growth kinetics from the parental cell lines. In this paper, we report the development of ht cell lines from other insect species and examination of their growth characteristics and virus susceptibility. Adaptation of cell lines sf-9, BTI-TN-5B1-4 (High5) and BTI-TN-MG1 (MG1) to 33℃ and 35℃ was carried out by shifting the culture temperature between 28℃ and higher temperatures by a gradual stepwise increase in temperature. The process of adaption to a higher culture temperature was accomplished over a period of 2 months. The cell lines with the temperature adaption were designated as sf9-ht33, sf9-ht35, High5-ht33, High5-ht35, MG1-ht33, MG1-ht35. These cell lines have been subcultured over 70 passages. Adaption to high temperatures was confirmed by a constant population doubling time with individual cell lines. The population doubling time of heat adapted cell lines were 1-4 h less than these of parental cell lines. Cell shapes did not show obvious change, however, the cell size of sf9-ht cells was enlarged and those of High5 and MG1 ht cells were reduced after heat adaption. When the cell lines were infected with Autographa californica nuclear polyhedrosis virus (AcMNPV) at 28℃, 33℃, 35℃ and 37℃, production of budded virus and occlusion bodies in each cell line was optimum at its own adapted temperature.

Role of mitogen activated protein kinase cascade pathway and anti-stress response in liver transplantation

OBJECTIVE: To explore the changes of mitogen activated protein kinase (MAPK) cascade pathway and anti-stress response of hepatocytes after liver transplantation. METHODS: Ten normal liver specimens and 18 punctured donor liver specimens were divided into 3 groups: A (control: 10), B (no rejection: 10) and C (acute rejection:8). MAPK, Ras, Jun and heat shock protein 70 (HSP70) were tested immunohistochemically while Ras and HSP70 were tested by in situ hybridization. All sections were subjected to image analysis. RESULTS: Protein expressions of MAPK, Ras and Jun were increased by an ascending order of groups A, B and C. The protein expression of HSP70 was the highest in group B but lower in group C. Expressions of Ras and HSP7O mRNA were consistent with those of protein. CONCLUSIONS: The changes of the MAPK cascade pathway and anti-stress response of hepatocytes after liver transplantation are one of regulation mechanisms for protecting the hepatocytes from damage after liver transplantation. This mechanism is active to support individual survival.

A suspended cell line from Trichoplusia ni （Lepidoptera）： Characterization and expression of recombinant proteins

A suspended cell line from Trichoplusia ni embryos was established, and its susceptibility to Autographa californica multiple nuclear polyhedrosis virus （AcMNPV） infection was investigated. This cell line had characteristics distinct from the BTI-Tn5B 1- 4 cell line （Tn5B 1-4） from T. ni in growth, and showed approximately the same responses to AcMNPV infection, production of occlusion bodies, and levels of recombinant protein expression. No clumps were observed at maximum cell density at late-log phase in shake-flask or T-flask cultures, and thus the cells represent a useful new contribution for baculovirus research. The cells consist of two major morphological types： approximately 70% spindle-shaped cells and 30% round cells. The cell line was highly susceptible to virus infection and produced around 107 AcMNPV occlusion bodies per cell, on average. Production of β-galactosidase and secreted alkaline phosphatase was high with 3.97 ± 0.13 × 10^4 IU/mL and 3.48 ± 0.40IU/mL, respectively. This cell line may be applicable for studies of scale-up production of viruses or baculovirus-insect cell expression. We also believe the new line can be a source for cell clones with higher production of virus and recombinant proteins compared to the parent or other existing cell lines such as Tn5B 1-4.