A novel Cre‐inducible knock‐in ARL13B‐tRFP fusion cilium reporter

Cilia play a major role in the regulation of numerous signaling pathways and are essential for embryonic development. Mutations in genes affecting ciliary function can cause a variety of diseases in humans summarized as ciliopathies. To facilitate the detection and visualization of cilia in a temporal and spatial manner in mouse tissues, we generated a Cre‐inducible cilium‐specific reporter mouse line expressing an ARL13B‐tRFP fusion protein driven by a CMV enhancer/chicken β actin promotor (pCAG) from the Hprt locus. We detected bright and specific ciliary signals by immunostainings of various mono‐ and multiciliated tissues and by time‐lapse live‐cell analysis of cultured embryos and organ explant cultures. Additionally, we monitored cilium assembly and disassembly in embryonic fibroblast cells using live‐cell imaging. Thus, the ARL13B‐tRFP reporter mouse strain is a valuable tool for the investigation of ciliary structure and function in a tissue‐specific manner to understand processes, such as ciliary protein trafficking or cilium‐dependent signaling in vitro and in vivo.     

Impaired cortical neurogenesis in plexin‐B1 and ‐B2 double deletion mutant

Mammalian cortical expansion is tightly controlled by fine‐tuning of proliferation and differentiation of neural progenitors in a region‐specific manner. How extrinsic cues interface with cell‐intrinsic programs to balance proliferative versus neurogenic decisions remains an unsolved question. We examined the function of Semaphorin receptors Plexin‐B1 and ‐B2 in corticogenesis by generating double mutants, whereby Plexin‐B2 was conditionally ablated in the developing brain in a Plexin‐B1 null mutant background. Absence of both Plexin‐Bs resulted in cortical thinning, particularly in the caudomedial cortex. Plexin‐B1/B2 double, but not single, mutants exhibited a reduced neural progenitor pool, attributable to decreased proliferation and an altered division mode favoring cell cycle exit. This resulted in deficient production of neurons throughout the neurogenic period, proportionally affecting all cortical laminae. Consistent with the in vivo data, cultured neural progenitors lacking both Plexin‐B1 and ‐B2 displayed decreased proliferative capacity and increased spontaneous differentiation. Our study therefore defines a novel function of Plexin‐B1 and ‐B2 in transmitting extrinsic signals to maintain proliferative and undifferentiated states of neural progenitors. As single mutants displayed no apparent cortical defects, we conclude that Plexin‐B1 and ‐B2 play redundant or compensatory roles during forebrain development to ensure proper neuronal production and neocortical expansion. © 2015 Wiley Periodicals, Inc. Develop Neurobiol 76: 882–899, 2016     

Metabolic differences inBacillus stearothermophilus grown at 55°C and 37°C

Summary Bacillus stearothermophilus was adapted to grow at 55°C and 37°C in a complex medium with almost equivalent yields in cell mass. In both temperature ranges the maximum specific growth rates (μ_max) were identical. Cellular extracts of this bacterium showed remarkable differences in the activity levels of several enzymes, depending on the respective growth temperature. High activities of glyceraldehyde-3-phosphate dehydrogenase and alcohol dehydrogenase were observed in bacteria from thermophilic cultures (55°C) and the respiratory quotient exceeded 1.0. Under anaerobic conditions at 55°C μ_max was the same as in aerobic cultures. No alcohol dehydrogenase was detected in cells from mesophilic cultures (37°C), however, and the level of glyceraldehyde-3-phosphate dehydrogenase was also extremely low under mesophilic conditions. Succinate dehydrogenase and isocitrate dehydrogenase activity appeared to be higher in bacteria grown at 37°C; the resspiratory quotient was always lower than 1.0. At 37°C, acetoin formation was observed regularly, a fermentation product which was never detected in 55°C-cultures. Under anaerobic conditions at 37°C a very low growth rate was found. When adapted to grow at 37°C or 55°C,B. stearothermophilus is apparently able to use different catabolic systems.     

Morphological Changes of <Emphasis Type="Italic">Pseudomonas pseudoalcaligenes</Emphasis> in Response to Temperature Selection

Adaptation to novel environments usually entails morphological changes. The cell morphology of six experimental populations of Pseudomonas pseudoalcaligenes and their common ancestor were examined with scanning electron microscopy (SEM). The six experimental populations were propagated under different temperatures for 10 months: three of them cultured at constant normal temperature (35°C) forming the control group, and the other three cultured at incremental higher temperatures (from 41° to 47°C) as the HT group. SEM showed the deformed and elongated cells in the 6-h cultures of both ancestral and control populations at 45°C, indicating that 45°C is stressful for the ancestral and the control populations. In contrast, the HT populations retained normal cell shape in the 6-h cultures at both 35°C and 45°C. The mean cell volumes of control and HT populations increased 29% and 34%, respectively, relative to the ancestor at their respective thermal regimens, suggestion that the culturing conditions might favor larger cells. Received: 27 March 2002 / Accepted: 30 April 2002     

Bcl‐xL overexpression does not enhance specific erythropoietin productivity of recombinant CHO cells grown at 33°C and 37°C

Overexpression of bcl‐xL in recombinant Chinese hamster ovary (rCHO) cells has been known to suppress apoptotic cell death and thereby extend culture longevity during batch culture. However, its effect on specific productivity (q) of rCHO cells is controversial. This study attempts to investigate the effect of bcl‐xL overexpression on q of rCHO cells producing erythropoietin (EPO). To regulate the bcl‐xL expression level, the Tet‐off system was introduced in rCHO cells producing EPO (EPO‐off‐bcl‐xL). The bcl‐xL expression level was tightly controlled by doxycycline concentration. To evaluate the effect of bcl‐xL overexpression on specific EPO productivity (q_EPO) at different levels, EPO‐off‐bcl‐xL cells were cultivated at the two different culture temperatures, 33°C and 37°C. The q_EPO at 33°C and 37°C in the presence of 100 ng/mL doxycycline (without bcl‐xL overexpression) were 4.89 ± 0.21 and 3.18 ± 0.06 μg/10⁶cells/day, respectively. In the absence of doxycycline, bcl‐xL overexpression did not affect q_EPO significantly, regardless of the culture temperature, though it extended the culture longevity. Taken together, bcl‐xL overexpression showed no significant effect on the q_EPO of rCHO cells grown at 33°C and 37°C. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

Effects of temperature on the growth and reproduction characteristics of Bemisia tabaci B‐biotype and Trialeurodes vaporariorum

The development period, survival rate, longevity and fecundity of two whiteflies, Bemisia tabaci B‐biotype and Trialeurodes vaporariorum (Homoptera: Aleyrodidae) were compared under different temperature laboratory conditions (15°C, 18°C, 21°C and 24°C). Egg development of B. tabaci B‐biotype was significantly longer compared with that of T. vaporariorum at 15°C, 18°C and 24°C. Significantly longer pseudo‐pupae development and lower survival rate were found in B. tabaci B‐biotype at 15°C compared with those at 18°C, 21°C and 24°C. Significantly higher fecundity was found in B. tabaci B‐biotype at 24°C compared with that at 15°C, 18°C and 21°C. However, the fecundity of T. vaporariorum was significantly lower at 24°C relative to that at 15°C, 18°C and 21°C. Significantly shorter 1st instar larval development was found in T. vaporariorum compared with that of B. tabaci at 15°C and 18°C. Significantly longer 2nd instar larval development was found in B. tabaci and T. vaporariorum at 15°C compared with that at 18°C, 21°C and 24°C. However, significantly shorter 3rd instar larval development was found in T. vaporariorum compared with that of B. tabaci at 15°C, 18°C and 24°C. The adaptive divergence of tolerance to relatively low temperature may be an important factor that results in the interspecific differentiation between the seasonal dynamics of these two whiteflies in China.     

Multiple generation effects of high temperature on the development and fecundity of Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) biotype B

Insects are ectotherms and their ability to resist temperature stress is limited. The immediate effects of sub‐lethal heat stress on insects are well documented, but longer‐term effects of such stresses are rarely reported. In this study, survival, development and reproduction of the whitefly, Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) biotype B, were compared over five consecutive generations at 27, 31 and 35 °C and for one generation at 37 °C. Both temperature and generation significantly affected the fitness of the whitefly. These impacts were more dramatic with increasing generations and temperatures. Among the experimental temperatures, the most favorable for development and reproduction were 27 °C and 31 °C. At 27 °C, survival, development and fecundity were all stable over these five generations. At 31 °C, immature survival rate was the highest in the fifth generation, but female fecundities decreased in the fourth and fifth generations. At 35 °C, egg hatching rate, immature survival rate and female fecundity decreased significantly in the fourth and fifth generations. At 37 °C, survival of B. tabaci was not adversely affected, but female fecundity at 37 °C was less than 10% of that at 27 °C or 31 °C. These results demonstrate that the lethal high temperature for B. tabaci is over 37 °C, and the whitefly population continued expanding in the five generations at 35 °C. The ability of B. tabaci biotype B to survive high temperature stress will play an important role in its population extension under global warming.     

Trypanosoma acomys (Wenyon, 1909): Continuous Culturing with a Mouse Fibroblast Cell-Line (A9)

The continuous culturing of Trypanosoma acomys in the presence of a murine areolar-adipose cell line (A9) was possible for the 1st time. The trypanosomes were cultured at 37° C with A9 in DMEM supplemented with 20% heat inactivated fetal bovine serum, using an initial inoculum from primary cultures of lung or blood clots from infected spiny mice. The cultures were maintained for 115 days and underwent 15 passages before termination and cryopreservation. Using this culture system T. acomys subcultures were initiated from 3 different initial inocula (3 × 10⁴, 1.5 × 10⁵ and 7.4 × 10⁵ parasites/ml) and growth curves revealed that the lowest inoculum gave the best growth pattern. This inoculum yielded a population doubling time of less than 12 h for 4 days, a high peak density of 7 × 10⁶ parasites/ml and the most gradual decline compared to the other 2 inocula. Rosetting epimastigotes and nests of amastigotes were observed in close association with the feeder layer cells. Epimastigotes were the most predominant form in culture supernatants but other morphological forms observed included trypomastigotes and sphaeromastigotes.     

Periodic harvesting of embryonic stem cells from a hollow‐fiber membrane based four‐compartment bioreactor

Different types of stem cells have been investigated for applications in drug screening and toxicity testing. In order to provide sufficient numbers of cells for such in vitro applications a scale‐up of stem cell culture is necessary. Bioreactors for dynamic three‐dimensional (3D) culture of growing cells offer the option for culturing large amounts of stem cells at high densities in a closed system. We describe a method for periodic harvesting of pluripotent stem cells (PSC) during expansion in a perfused 3D hollow‐fiber membrane bioreactor, using mouse embryonic stem cells (mESC) as a model cell line. A number of 100 × 10⁶ mESC were seeded in bioreactors in the presence of mouse embryonic fibroblasts (MEF) as feeder cells. Over a cultivation interval of nine days cells were harvested by trypsin perfusion and mechanical agitation every second to third culture day. A mean of 380 × 10⁶ mESC could be removed with every harvest. Subsequent to harvesting, cells continued growing in the bioreactor, as determined by increasing glucose consumption and lactate production. Immunocytochemical staining and mRNA expression analysis of markers for pluripotency and the three germ layers showed a similar expression of most markers in the harvested cells and in mESC control cultures. In conclusion, successful expansion and harvesting of viable mESC from bioreactor cultures with preservation of sterility was shown. The present study is the first one showing the feasibility of periodic harvesting of adherent cells from a continuously perfused four‐compartment bioreactor including further cultivation of remaining cells. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 32:141–151, 2016     

Effect of culture temperature on follicle-stimulating hormone production by Chinese hamster ovary cells in a perfusion bioreactor

Follicle-stimulating hormone (FSH) was produced in Chinese hamster ovary (CHO) cells using a perfusion bioreactor. Perfusion culture at 37°C yielded a high cell density but a low FSH production. To investigate the effect of culture temperature in the range of 26–37°C on cell growth and FSH production, batch cultures were performed. Lowering culture temperature below 32°C resulted in growth suppression. However, specific productivity of FSH, q _FSH, increased as culture temperature decreased, and the maximum q _FSH of 43.4 ng/10⁶ cells/h was obtained at 28°C, which is 13-fold higher than that at 37°C. Based on the results obtained from batch cultures, we performed perfusion cultures with two consecutive temperatures. CHO cells were grown up to 3.2 × 10⁷ cells/ml at 37°C and culture temperature shifted down to 28°C to obtain a high FSH titer. Soon after the maximum FSH titer of 21 μg/ml was achieved, a rapid loss of not only viable cell concentration but also cell viability was observed, probably due to the low activities of enzymes related to cell growth. Thus, the extension of production period at 28°C is critical for the enhancement of FSH production, and the use of antiapoptotic genes seems to be promising.     

An In‐situ glucose‐stimulated insulin secretion assay under perfusion bioreactor conditions

Perfusion bioreactors, unlike traditional in vitro cell culture systems, offer stringent control of physiological parameters such as pH, flow, temperature, and dissolved oxygen concentration which have been shown to have an impact on cellular behaviour and viability. Due to the relative infancy and the growing interest in these in vitro culture systems, detection methods to monitor cell function under dynamic perfusion bioreactor conditions remains one of the main challenges. In this study, INS‐1 cells, a cell line which exhibit glucose‐stimulated insulin secretion, were embedded in fibrin and cultured under perfusion bioreactor conditions for 48 h and then exposed to either a high‐, or low‐glucose concentration for 24 h. These cultures were compared to non‐bioreacted controls. Bioreacted cultures exposed to a high‐glucose concentration showed the highest glucose‐stimulated insulin secretion when compared to those in a low‐glucose environment. The stimulation index, a marker for insulin secretion functionality, increased over time. A lower incidence of apoptotic cells was observed in the bioreacted cultures when compared to non‐bioreacted ones, as evaluated by a TUNEL assay. Immunofluorescence staining of Ki67 and insulin was performed and showed no differences in the incidence of proliferative cells between conditions (bioreacted and non‐bioreacted), where all cells stained positive for insulin. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:454–462, 2017     

Overexpressed poly(ADP‐ribose) polymerase delays the release of rat cells from p53‐mediated G1 checkpoint

We have previously reported that in cells ectopically expressing temperature‐sensitive p53^135val mutant, p53 formed tight complexes with poly(ADP‐ribose) polymerase (PARP). At elevated temperatures, p53^135val protein, adopting the mutant phenotype, was localized in the cytoplasm and sequestered the endogenous PARP. To prove whether an excess of p53^135val protein led to this unusual intracellular distribution of PARP, we have established cell lines overexpressing p53^135val + c‐Ha‐ras alone or in combination with PARP. Interestingly, immunostaining revealed that PARP is sequestered in the cytoplasm by mutant p53 in cells overexpressing both proteins. Simultaneous overexpression of PARP had no effect on temperature‐dependent cell proliferation and only negligibly affected the kinetics of p53‐mediated G₁ arrest. However, if the cells were completely growth arrested at 32°C and then shifted up to 37°C, coexpressed PARP dramatically delayed the reentry of transformed cells into the cell cycle. Even after 72 h at 37°C the proportion of S‐phase cells was reduced to 20% compared to those expressing only p53^135val + c‐Ha‐ras. The coexpressed PARP stabilized wt p53 protein and its enzymatic activity was necessary for stabilization. J. Cell. Biochem. 80:85–103, 2000. © 2000 Wiley‐Liss, Inc.     

Artificial feeder cells expressing ligands for killer cell immunoglobulin-like receptors and CD94/NKG2A for expansion of functional primary natural killer cells with tolerance to self

Background aimsNatural killer (NK) cells are promising cells for immunotherapy of cancer, and there are ongoing efforts to improve their ex vivo expansion to clinically relevant numbers. This study focused on the development of a C1-, C2-, Bw4 killer cell immunoglobulin-like receptor (KIR) ligand and NKG2A ligand-containing feeder cell line for autonomous expansion of functional NK cells.MethodsPC3^PSCA-derived feeder cells expressing IL-2, 4-1BBL and membrane-bound IL-15-mutDAP12 (mIL-15d) fusion protein in combinations or alone were generated and used for expansion. Expanded NK cells were analyzed with respect to subpopulations, expression of NK cell receptors and immune checkpoint molecules as well as their cytotoxicity against K562 cells, cetuximab-marked tumor cells and autologous B cells.ResultsOnly combinatorial expression of IL-2 plus 4-1BBL or IL-2, 4-1BBL plus mIL-15d in feeder cells efficiently expanded NK cells and supported selective outgrowth of NK cells from peripheral blood mononuclear cell samples. Best expansion of NK cells was achieved using PC3^PSCA-IL-2-4-1BBL-mIL-15d feeder cells. Such expanded NK cells exhibited upregulation of natural cytotoxicity receptors, DNAM-1 and NKG2C and induced expression of high affinity IL-2 receptor, which were paralleled by attenuated KIR and increased expression of NKG2A and ILT2. In addition, elevated TIM-3 levels were noted and PD-1 and T cell immunoreceptor with Ig and ITIM domain (TIGIT) levels remained low. Expanded NK cells were highly cytolytic when encountering K562 cells and cetuximab-marked target cells but remained unresponsive to autologous B cells and target cells with protective levels of human leukocyte antigen.ConclusionsCollectively, the results demonstrate the feasibility of PC3^PSCA-IL-2-4-1BBL-mIL-15d feeder cells for robust expansion of NK cells, which remain tolerant to self and could be used in the future for adoptive cell therapy of cancer.     

Selection of a Photosynthetic Bacterium Suitable for Hydrogen Production in Outdoor Cultures among Strains Isolated in the Seoul,Taegu, Sendai and Bangkok Areas

Very efficient hydrogen producing photosynthetic bacteria, strains SL1, SL3, SL16 and TG28 newly isolated in Korea, and strain KM113 newly isolated in the Sendai area, were found to be Rhodopseudomonas spp. To examine the stability of cell suspensions of the cultures for hydrogen production, which is closely associated with light absorption, we conducted larger scale cultures under periodic illumination (12-hr intervals) without stirring at 30°C using strains SL1 and Rhodopseudomonas sphaeroides B5, the latter was isolated in the Bangkok area. Both strains gave homogeneous cell suspensions throughout the incubation period and larger amounts of hydrogen were produced in a shorter period of time by both cultures than obtained with Rhodopseudomonas sp. TN3, an isolate from the Sendai area which was reported previously. With the cells of the new isolates and strains TN3 and B5 grown on glutamate-malate medium at 30°C, we measured hydrogen production at 20, 30 and 40°C in the same medium. Among them, strains SL1, SL16 and KM113 showed the highest hydrogen production activity at 30°C. The maximum hydrogen production rates with these strains were over 130 µ1/hr/mg dry cells, but at 40°C, the highest activity (138 µl/hr/mg dry cells) was obtained with strain B5. Since strain B5 also showed good activities at 20 and 30°C, we suggest that this strain might be suitable for hydrogen production in outdoor cultures.     

Accumulation of apoptosis‐insensitive human bone marrow‐mesenchymal stromal cells after long‐term expansion

Cells undergo replicative senescence during in vitro expansion, which is induced by the accumulation of cellular damage caused by excessive reactive oxygen species. In this study, we investigated whether long‐term‐cultured human bone marrow mesenchymal stromal cells (MSCs) are insensitive to apoptotic stimulation. To examine this, we established replicative senescent cells from long‐term cultures of human bone marrow MSCs. Senescent cells were identified based on declining population doublings, increased expression of senescence markers p16 and p53 and increased senescence‐associated β‐gal activity. In cell viability assays, replicative senescent MSCs in late passages (i.e. 15–19 passages) resisted damage induced by oxidative stress more than those in early passages did (i.e. 7–10 passages). This resistance occurred via caspase‐9 and caspase‐3 rather than via caspase‐8. The senescent cells are gradually accumulated during long‐term expansion. The oxidative stress‐sensitive proteins ataxia‐telangiectasia mutated and p53 were phosphorylated, and the expression of apoptosis molecules Bax increased, and Bcl‐2 decreased in early passage MSCs; however, the expression of the apoptotic molecules did less change in response to apoptotic stimulation in late‐passage MSCs, suggesting that the intrinsic apoptotic signalling pathway was not induced by oxidative stress in long‐term‐cultured MSCs. Based on these results, we propose that some replicative senescent cells may avoid apoptosis signalling via impairment of signalling molecules and accumulation during long‐term expansion. Copyright © 2016 John Wiley & Sons, Ltd.     

Enhanced Thermotolerance of <Emphasis Type="Italic">E. coli</Emphasis> by Expressed OsHsp90 from Rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

A gene encoding the rice (Oryza sativa L.) 90-kDa heat shock protein (OsHsp90) was introduced into Escherichia coli using the pGEX-6p-3 expression vector with a glutathione-S-transferase (GST) tag to analyze the possible function of this protein under heat stress for the first time. We compared the survivability of E. coli (BL21) cells transformed with a recombinant plasmid containing GST-OsHsp90 fusion protein with control E. coli cells transformed with the plasmid containing GST and the wild type BL21 under heat shock after isopropyl β-d-thiogalactopyranoside induction. Cells expressing GST-OsHsp90 demonstrated thermotolerance at 42, 50, and 70°C, treatments that were more harmful to cells expressing GST and the wild type. Further studies were carried out to analyze the heat-induced characteristics of OsHsp90 at 42, 50, and 70°C in vitro. When cell lysates from E. coli transformants were heated at these heat stresses, expressed GST-OsHsp90 prevented the denaturation of bacterial proteins treated with 42°C heat shocks, and partially prevented that of proteins treated at 50 and 70°C; meanwhile, cells expressing GST-OsHsp90 withstood the duration at 50°C. These results indicate that OsHsp90 functioned as a chaperone, binding to a subset of substrates, and maintained E. coli growth well at high temperatures.     

Conversion of viable but nonculturable Vibrio cholerae to the culturable state by co‐culture with eukaryotic cells

VBNC Vibrio cholerae O139 VC‐280 obtained by incubation in 1% solution of artificial sea water IO at 4°C for 74 days converted to the culturable state when co‐cultured with CHO cells. Other eukaryotic cell lines, including HT‐29, Caco‐2, T84, HeLa, and Intestine 407, also supported conversion of VBNC cells to the culturable state. Conversion of VBNC V. cholerae O1 N16961 and V. cholerae O139 VC‐280/pG13 to the culturable state, under the same conditions, was also confirmed. When VBNC V. cholerae O139 VC‐280 was incubated in 1% IO at 4°C for up to 91 days, the number of cells converted by co‐culture with CHO cells declined with each additional day of incubation and after 91 days conversion was not observed.     

Short‐term high temperature treatment reduces viability and inhibits respiration and DNA repair enzymes in Araucaria angustifolia cells

We evaluated the effect of global warming on Araucaria angustifolia (Bert.) O. Kuntze, a critically endangered native tree of Southern Brazil, by studying the effects of short‐term high temperature treatment on cell viability, respiration and DNA repair of embryogenic cells. Compared with control cells grown at 25°C, cell viability was reduced by 40% after incubation at 30 and 37°C for 24 and 6 h, respectively, while 2 h at 40 and 42°C killed 95% of the cells. Cell respiration was unaffected at 30–37°C, but dramatically reduced after 2 h at 42°C. The in vitro activity of enzymes of the base excision repair (BER) pathway was determined. Apurinic/apyrimidine endonuclease, measured in extracts from cells incubated for 2 h at 42°C, was completely inactivated while lower temperatures had no effect. The activities of three enzymes of the mitochondrial BER pathway were measured after 30‐min preincubation of isolated mitochondria at 25–40°C and one of them, uracil glycosylase, was completely inhibited at 40°C. We conclude that cell viability, respiration and DNA repair have different temperature sensitivities between 25 and 37°C, and that they are all very sensitive to 40 or 42°C. Thus, A. angustifolia will likely be vulnerable to the short‐term high temperature events associated with global warming.     

Heterologous expression of a <Emphasis Type="Italic">Ammopiptanthus mongolicus</Emphasis> late embryogenesis abundant protein gene (<Emphasis Type="Italic">AmLEA</Emphasis>) enhances <Emphasis Type="Italic">Escherichia coli</Emphasis> viability under cold and heat stress

A late embryogenesis abundant protein gene, AmLEA from Ammopiptanthus mongolicus, was introduced into Escherichia coli using the IMPACT™-TWIN system to analyze the possible function of AmLEA under heat and cold stresses. A fusion protein about 38 kD was expressed in E.coli cells harboring pTWIN-LEA after the induction of IPTG by SDS–PAGE analysis and the accumulation of the fusion protein peaked 3 h after IPTG addition when cultured at 37°C. Compared with control cells, the E. coli cells expressing AmLEA fusion protein showed improved chilling and heat resistence, illuminating the protein may play a protective role in cells under stress conditions. These results suggested the natively unstructured protein, similar to other members of LEA proteins, has high capacity for binding water and potential protective function against dehydration or action similar to the cold shock chaperones.