SCD1 sustains brown fat sympathetic innervation and thermogenesis during the long-term cold exposure.

Brown fat adipose tissue (BAT) is a therapeutic potential target to improve obesity, diabetes and cold acclimation in mammals. During the long-term cold exposure, the hyperplastic sympathetic network is crucial for BAT the maintain the highly thermogenic status. It has been proved that the sympathetic nervous drives the thermogenic activity of BAT via the release of norepinephrine. However, it is still unclear that how the thermogenic BAT affects the remodeling of the hyperplastic sympathetic network, especially during the long-term cold exposure. Here, we showed that following long-term cold exposure, SCD1-mediated monounsaturated fatty acid biosynthesis pathway was enriched, and the ratios of monounsaturated/saturated fatty acids were significantly up-regulated in BAT. And SCD1-deficiency in BAT decreased the capacity of cold acclimation, and suppressed long-term cold mediated BAT thermogenic activation. Furthermore, by using thermoneutral exposure and sympathetic nerve excision models, we disclosed that SCD1-deficiency in BAT affected the thermogenic activity, depended on sympathetic nerve. In mechanism, SCD1-deficiency resulted in the unbalanced ratio of palmitic acid (PA)/palmitoleic acid (PO), with obviously higher level of PA and lower level of PO. And PO supplement efficiently reversed the inhibitory role of SCD1-deficiency on BAT thermogenesis and the hyperplastic sympathetic network. Thus, our data provided insight into the role of SCD1-mediated monounsaturated fatty acids metabolism to the interaction between thermogenic activity BAT and hyperplastic sympathetic networks, and illustrated the critical role of monounsaturated fatty acids biosynthetic pathway in cold acclimation during the long-term cold exposure.

Lead Disrupts Mitochondrial Morphology and Function through Induction of ER Stress in Model of Neurotoxicity.

Lead exposure may weaken the ability of learning and memory in the nervous system through mitochondrial paramorphia and dysfunction. However, the underlying mechanism has not been fully elucidated. In our works, with SD rats, primary culture of hippocampal neuron and PC12 cell line model were built up and behavioral tests were performed to determine the learning and memory insults; Western blot, immunological staining, and electron microscope were then conducted to determine endoplasmic reticulum stress and mitochondrial paramorphia and dysfunction. Co-immunoprecipitation were performed to investigate potential protein-protein interaction. The results show that lead exposure may cripple rats' learning and memory capability by inducing endoplasmic reticulum stress and mitochondrial paramorphia and dysfunction. Furthermore, we clarify that enhanced MFN2 ubiquitination degradation mediated by PINK1 may account for mitochondrial paramorphia and endoplasmic reticulum stress. Our work may provide important clues for research on the mechanism of how Pb exposure leads to nervous system damage.

Identification of Notch signaling pathway gene mutations as a prognostic biomarker for bladder cancer.

Purpose: The authors aimed to identify Notch signaling pathway gene mutations as a prognostic biomarker for bladder cancer. Methods: First, critical Notch signaling pathway genes were screened using The Cancer Genome Atlas and validation sets. Second, immune infiltration, protein-protein interaction network, Kyoto Encyclopedia of Genes and Genomes and Gene Set Enrichment Analysis analyses were performed. Finally, potential immunotherapy drug targets were screened using T-cell receptors, B-cell receptors and CERES scores for bladder cancer. Results: The NOTCH7 gene was identified, with a significant difference in immune infiltration level between mutant and wild type in bladder cancer, mainly related to T cells. NOTCH7 was an immunotherapy prognostic factor, and IRF1 and B2M were the potential drug targets for NOTCH7 mutation in bladder cancer. Conclusion: NOTCH7 gene mutation can be used as an immunotherapy biomarker for bladder cancer.

Lay abstract Studies have shown that 43% of bladder cancer patients harbor somatic mutations in genes associated with the Notch signaling pathway. However, it is not clear whether these mutations impact the efficacy of immunotherapy in bladder cancer patients. In the present study, the authors aimed to elucidate whether Notch signaling pathway gene mutations are effective biomarkers for predicting immunotherapy response and prognosis in patients with bladder cancer. Results of the present study suggested that seven genes ­ CNTN6, CREBBP, EP300, NCOR1, NCOR2, NOTCH2 and SPEN ­ involved in the Notch signaling pathway can be used to predict the response of patients to immunotherapy. In addition, IRF1 and B2M can act as combination drug targets with these seven genes.

Mitochondrial-Derived Peptide MOTS-c Increases Adipose Thermogenic Activation to Promote Cold Adaptation.

Cold exposure stress causes hypothermia, cognitive impairment, liver injury, and cardiovascular diseases, thereby increasing morbidity and mortality. Paradoxically, cold acclimation is believed to confer metabolic improvement to allow individuals to adapt to cold, harsh conditions and to protect them from cold stress-induced diseases. However, the therapeutic strategy to enhance cold acclimation remains less studied. Here, we demonstrate that the mitochondrial-derived peptide MOTS-c efficiently promotes cold adaptation. Following cold exposure, the improvement of adipose non-shivering thermogenesis facilitated cold adaptation. MOTS-c, a newly identified peptide, is secreted by mitochondria. In this study, we observed that the level of MOTS-c in serum decreased after cold stress. MOTS-c treatment enhanced cold tolerance and reduced lipid trafficking to the liver. In addition, MOTS-c dramatically upregulated brown adipose tissue (BAT) thermogenic gene expression and increased white fat "browning". This effect might have been mediated by MOTS-c-activated phosphorylation of the ERK signaling pathway. The inhibition of ERK signaling disturbed the up-regulatory effect of MOTS-c on thermogenesis. In summary, our results indicate that MOTS-c treatment is a potential therapeutic strategy for defending against cold stress by increasing the adipose thermogenesis via the ERK pathway.

Anion- and Solvent-Induced Single-Crystal-to-Single-Crystal Transformation within an Iron(II) Triazole System: a Promising Luminescent Probe for CrO42- and Cyano-Containing Molecules.

Anion- and solvent-induced single-crystal-to-single-crystal transformation within an iron(II) triazole system has been generated from {[Fe(TPPT)2Cl2]·CHCl3} n (1a) to [Fe(TPPT)(C2O4)0.5Cl(H2O)] n (1b). Luminescence studies indicated that the resultant 1b can be considered as a promising luminescent probe for CrO42- and cyano molecules.

Trans-Ferulic Acid-4-ß-Glucoside Alleviates Cold-Induced Oxidative Stress and Promotes Cold Tolerance.

Trans-ferulic acid-4-ß-glucoside (C16H20O9, TFA-4ß-G) is a monomer extracted from the Chinese medicine called radix aconiti carmichaeli (Fuzi). To date, research on this substance is lacking. Here, we found that trans-ferulic acid-4-ß-glucoside effectively promoted cold acclimatization in mice via increased heat production and alleviation of oxidative stress in a cold environment. Thus, our work indicates that ferulic acid-4-ß-glucoside is a potential therapeutic candidate for prevention and treatment of cold stress injury.

PSAD Test in the Diagnosis of Prostate Cancer: a Meta-Analysis.

BACKGROUND: The aim of this study is to evaluate the diagnostic value of prostate-specific antigen density (PSAD) test in detecting prostate cancer. METHODS: We searched public databases including PubMed, Medline, Springer, Elsevier Science Direct, Cochrane Library, and Google scholar before June 2015. In this meta-analysis, specificity, positive LR, negative LR, and dOR of PSAD test in patients with prostate cancer were analyzed from published studies. We applied Meta-DiSc 1.4 and Stata 11.0 software to the meta-analysis. RESULTS: A total of 11 separate studies consisting of 1821 participants were considered in the meta-analysis. The results of this meta-analysis indicated that sensitivity, specificity, positive Likelihood Ratio (LR), negative LR, and Diagnostic Odds Ratio (dOR) of PSAD test for prostate cancer were 0.73 (95% CI = 0.69 to 0.78), 0.64 (95% CI = 0.61 to 0.66), 2.13 (95% CI = 1.64 to 2.76), 0.45 (95% CI = 0.35 to 0.57), and 5.87 (95% CI = 4.42 to 7.81), respectively. It also showed that the AUC and Q* index were 0.77 and 0.71, respectively. The results of the Egger's linear regression test showed that no publication bias existed (p > 0.05). CONCLUSIONS: In general, our results show that specificity, positive LR, negative LR, dOR, the area under the curve (AUC), and Q * index of PSAD test may be appropriate for detecting prostate cancer.

Knowledge mapping of digital medicine in cardiovascular diseases from 2004 to 2022: A bibliometric analysis.

Objective: To review studies on digital medicine in cardiovascular diseases (CVD), discuss its development process, knowledge structure and research hotspots, and provide a perspective for researchers in this field. Methods: The relevant literature in recent 20 years (January 2004 to October 2022) were retrieved from the Web of Science Core Collection (WoSCC). CiteSpace was used to demonstrate our knowledge of keywords, co-references and speculative frontiers. VOSviewer was used to chart the contributions of authors, institutions and countries and incorporates their link strength into the table. Results: A total of 5265 English articles in set timespan were included. The number of publications increased steadily annually. The United States (US) produced the highest number of publications, followed by England. Most publications were from Harvard Medicine School, followed by Massachusetts General Hospital and Brigham Women's Hospital. The most authoritative academic journal was JMIR mHealth and uHealth. Noseworthy PA may have the highest influence in this intersected field with the highest number of citations and total link strength. The utilization of wearable mobile devices in the context of CVD, encompassing the identification of risk factors, diagnosis and prevention of diseases, as well as early intervention and remote management of diseases, has been widely acknowledged as a knowledge base and an area of current interest. To investigate the impact of various digital medicine interventions on chronic care and assess their clinical effectiveness, examine the potential of machine learning (ML) in delivering clinical care for atrial fibrillation (AF) and identifying early disease risk factors, as well as explore the development of disease prediction models using neural networks (NNs), ML and unsupervised learning in CVD prognosis, may emerge as future trends and areas of focus. Conclusion: Recently, there has been a significant surge of interest in the investigation of digital medicine in CVD. This initial bibliometric study offers a comprehensive analysis of the research landscape pertaining to digital medicine in CVD, thereby furnishing related scholars with a dependable reference to facilitate further progress in this domain.

Cold exposure accelerates lysine catabolism to promote cold acclimation via remodeling hepatic histone crotonylation.

BACKGROUND: Cold environments pose serious threats on human health, with increased risk for myocardial infarction, stroke, frostbite, and hypothermia. Acquired cold acclimation is required to minimize cold-induced injures and to improve metabolic health. However, the underlying mechanisms remain to be fully elucidated. OBJECTIVE: We aimed to identify critical amino acids involved in cold acclimation and unmask the regulatory mechanisms. METHODS: A total of twenty male participants were recruited and followed up after 3 months' natural cold exposure. Cold-induced vasodilation (CIVD) tests and clinical biochemical analysis were performed at baseline and after 3-months cold exposure, whilst blood samples were collected, and plasma amino acids were analyzed by targeted metabolomics. To further confirm the effect of lysine on cold tolerance and explain the latent mechanism, mice were challenged with chronic cold exposure for 7 days with lysine supplement, then core and local surface temperature as well as thermogenesis activity were detected. RESULTS: Continuous cold exposure shortened the CIVD onset time and increased the average finger temperature. Levels of the plasma lysine and glycine were decreased in both humans and mice. Venn analysis from three datasets revealed that lysine was the only significantly changed plasma amino acid, which strongly correlated with the altered CIVD. Moreover, mice sustained a relatively higher core temperature and surface temperature in the back, tail and paws upon lysine supplementation. Furthermore, lysine supplementation increased the level of histone H3K18cr and promoted the gene and protein expression of Cpt1a, Cpt2 and Cyp27a1 in liver. CONCLUSION: Our work identified lysine as a critical amino acid for the remodeling of hepatic histone crotonylation that facilitates cold acclimation.

Preparation and characterization of a neutralizing murine monoclonal antibody against tetanus toxin.

After Clostridium tetani infects the human body, it propagates under anaerobic conditions and produces tetanus neurotoxin (TeNT). TeNT can affect the central nervous system, inhibit the release of neurotransmitters, and result in respiratory failure, which are the root causes of death in tetanus patients. Identifying monoclonal antibodies (mAbs) targeting TeNT with neutralizing activity is urgently needed for the prevention and treatment of tetanus infection. In this study, through immunizing BALB/c mice with tetanus toxoid (TT), we obtained six positive hybridoma cell lines (1A7, 2C7, 3A7, 3H4, 4C1, and 4E12). Antibody isotyping showed that the antibodies are all of the IgG1/κ subclass. Ascites fluid was prepared by allogeneic ascites induction and the antibodies were purified through protein G affinity chromatography columns. Purities of the produced murine mAbs were all greater than 95%. All six antibodies bound to linear epitopes, among which 3A7 bound to the TeNT/L domain and the other five antibodies bound to the TeNT/Hc domain. Moreover, the affinity constants of these six antibodies against the antigen were all in the nanomolar range, and the affinity of 4E12 antibody reached the picomolar range. Results from toxin-neutralization assays in mice showed that 2C7 antibody delayed animal death, while 1A7, 3A7, 3H4, and 4E12 antibodies conferred partial protection. Additionally, 4C1 antibody offered complete protection, as 200 µg of 4C1 antibody fully protected against toxin challenge with 10 LD50 of TeNT and had a window period of 1 h. Antibody epitope grouping results revealed that the binding epitopes of 4C1 antibody were different from those of the other five antibodies. When 4C1 antibody was used in combination with another antibody, the neutralizing activities of antibodies were all evidently enhanced. Specifically, 4C1 combined with 3A7 antibody led to the greatest improvement in neutralizing activities, and 20 µg antibodies total (10 + 10 µg) fully protected against toxin challenge with 10 LD50. When 4E12, 3A7, and 4C1 antibodies were used in combination, 18 µg antibodies total (6 + 6 + 6 µg) completely neutralized 10 LD50 toxin. The present study derived murine mAbs with neutralizing activities and laid the foundation for follow-up therapeutic drug development for TeNT poisoning as well as establishment of TeNT detection methods.

Balancing the pharmacokinetics and pharmacodynamics of interferon-α2b and human serum albumin fusion protein by proteolytic or reductive cleavage increases its in vivo therapeutic efficacy.

Human serum albumin (HSA) fusion (Albufusion) technology has evolved to be a general strategy to increase the in vivo half-lives of therapeutic proteins. However, because of the steric hindrance effect of HSA, conventional Albufusion technology improves the pharmacokinetics (PK) at the cost of pharmacodynamics (PD). To achieve balanced PK and PD of interferon-α2b (IFN-α2b) and HSA fusion protein, protease cleavage sites or disulfide linkage that enabled releasing of intact IFN-α2b with full activity was introduced between these two moieties. Nonreleasable and releasable fusion proteins showed similar cell surface receptor binding affinities; however, releasable fusion proteins exhibited release efficiency proportional increase of in vitro antiviral and antiproliferative activities. The release rate also had a profound impact on the in vivo pharmaceutical properties of fusion proteins. Releasable fusion proteins with intermediate release rate had the most balanced PK and PD, which translated into improved therapeutic efficacy in the HT29 human colon cancer xenograft model. Releasable Albufusion (rAlbufusion) allows tailored design of the PK/PD profile and greatly extends the utility of conventional Albufusion technology.

Lead Exposure Induced Neural Stem Cells Death via Notch Signaling Pathway and Gut-Brain Axis.

Numerous studies have examined the effects of lead (Pb) on cognitive ability. It is essential for the brain to maintain its functions through the differentiation of neural stem cells into various types of cells. Despite this, it remains unclear how Pb exposure affects neural stem cells and how it does, so the Pb-exposed mice were treated with the Notch inhibitor DAPT after we established the Pb exposure models. Neuronal stem cells and autophagy were assessed by immunofluorescence staining and western blot. The microbiota of the feces was also analyzed using the 16S rRNA amplicon sequencing technique. In this study, we found that Pb exposure caused neural injuries and deficits in neural stem cells, whereas DAPT rescued the damage. With DAPT, Pb-induced autophagy was partially reversed. Exposure to Pb also reduced inflammation and damaged gut barrier function. Furthermore, Pb exposure led to low bacterial diversity, an increase in pathogen abundance, and an unusual mode of interaction. Taken together, this study revealed that damages in neural stem cells contributed largely to cognitive impairment during Pb exposure, and this process was partially dependent on the Notch pathway and gut dysbiosis.

Hypoxia causes mitochondrial dysfunction and brain memory disorder in a manner mediated by the reduction of Cirbp.

Environmental hypoxic hazard has increasingly become a global public health issue, with impelling evidences supporting the relation between hypoxia and cognitive disorders. As a potent stressor, hypoxia causes mitochondrial dysfunction with insufficient energy production, thus the formation of brain memory disorder. Yet, the underlying molecular mechanism/s against hypoxia induced injury have yet to be identified. Here, we report that cold inducible RNA binding protein (Cirbp) attenuates hypoxia induced insufficient energy production and oxidative stress. Further analyses show that Cirbp sustains protein levels of respiratory chain complexes II (SDHB) and IV (MT-CO1), and directly binds the 3'UTR of Atp5g3 to control mitochondrial homeostasis and ATP biogenesis upon hypoxic stress. Altogether, our data establish Cirbp as a critical protective factor against hypoxic health hazard and provide novel insights into its latent regulation network.

Cirbp-PSD95 axis protects against hypobaric hypoxia-induced aberrant morphology of hippocampal dendritic spines and cognitive deficits.

Hypobaric hypoxia (HH) is a typical characteristic of high altitude environment and causes a spectrum of pathophysiological effects, including headaches, gliovascular dysfunction and cognitive retardation. Here, we sought to understand the mechanisms underlying cognitive deficits under HH exposure. Our results showed that hypobaric hypoxia exposure impaired cognitive function and suppressed dendritic spine density accompanied with increased neck length in both basal and apical hippocampal CA1 region neurons in mice. The expression of PSD95, a vital synaptic scaffolding molecule, is down-regulated by hypobaric hypoxia exposure and post-transcriptionally regulated by cold-inducible RNA-binding protein (Cirbp) through 3'-UTR region binding. PSD95 expressing alleviates hypoxia-induced dendritic spine morphology changes of hippocampal neurons and memory deterioration. Moreover, overexpressed Cirbp in hippocampus rescues HH-induced abnormal expression of PSD95 and attenuates hypoxia-induced dendritic spine injury and cognitive retardation. Thus, our findings reveal a novel mechanism that Cirbp-PSD-95 axis appears to play an essential role in HH-induced cognitive dysfunction in mice.

MicroRNA-106b-5p participates in lead (Pb2+)-induced cell viability inhibition by targeting XIAP in HT-22 and PC12 cells.

Previous studies reported perturbed expressing of X-linked inhibitor of apoptosis protein (XIAP) under lead (Pb) exposure. However, researches on XIAP expression mainly focused on its transcriptional and post-translational regulation, rarely involving post-transcriptional mechanism manipulated by certain indispensable microRNAs (miRNAs). Interestingly, we unveiled that miR-106b-5p, a widely expressed miRNA in various tissues, is up-regulated by Pb2+-induced stress. Moreover, we found a binding site for miR-106b-5p in the 3'-UTR of xiap mRNA using bioinformatics analysis, and provided the evidences that miR-106b-5p can interact and function with this regulatory region via luciferase reporter assay. Our results further showed that miR-106b-5p down-regulates XIAP protein level, and suppression of miR-106b-5p reverses the decrease in both XIAP level and cell viability in Pb2+-treated HT-22 and PC12 cells. In brief, we identified a novel function of miR-106b-5p in the post-transcriptional regulation of XIAP expression associated with Pb neurotoxicity.

Secretory expression of glycosylated and aglycosylated mutein of onconase from Pichia pastoris using different secretion signals and their purification and characterization.

Onconase, an RNAse extracted from embryos of the Northern leopard frog (Rana pipiens), is in a confirmatory phase IIIb clinical trial for the treatment of unresectable malignant mesothelioma. Because the current purification process for onconase is cumbersome and laborious, the development of more efficient and cost-effective alternative sources is imperative. In this study, we assessed the potential of Pichia pastoris as an expression host for the large-scale production of onconase. Because of its specific N-terminal structure, active onconase with a correct N-terminus could not be secreted by an alpha-mating factor (alpha-MF)-prepro secretion signal, and an alpha-MF-pre secretion signal should be used instead. Onconase accumulated to a high concentration (about 300 and 150 mg L(-1) for glycosylated onconase and aglycosylated mutein, respectively) in high cell density fermentation, and was purified to homogeneity with high yields (56% for glycosylated onconase and 67% for aglycosylated mutein) by a simple purification process consisting of cation exchange chromatography and size exclusion chromatography. In vitro activity assays revealed that glycosylation decreased both the RNAse activity and the cytotoxic activity of onconase. The high expression level and subsequent facile purification process make P. pastoris an efficient and cost-effective host for the large-scale production of onconase.

Degradation of HSA-AX15(R13K) when expressed in Pichia pastoris can be reduced via the disruption of YPS1 gene in this yeast.

Expression of recombinant protein HSA-AX15(R13K) in Pichia pastoris GS115 strain produced both the intact protein and its two degradation products with molecular weights of around 43kDa and 66.2kDa, respectively. To reduce or avoid the degradation, a modified P. pastoris GS115 stain, in which YPS1 gene was disrupted, was constructed via homologous recombination and used as a host strain for the HSA-AX15(R13K) expression. After 60h of induction during culture, it was found that the degradation product of around 66.2kDa was reduced significantly in the supernatant of yps1-disrupted strain compared with that in the supernatant of wild-type strain. By the Western blot analysis of culture supernatants from wild-type and yps1-disrupted strains expressing HSA-AX15(R13K), the significant improvement was also seen in the degradation product of around 43kDa. Comparison of cell growth between the two strains demonstrated a similar growth tendency, thereby indicating that the disruption of YPS1 gene has no effect on the normal physiology of GS115 strain. Following induction for 60h, the yield of intact HSA-AX15(R13K) in the yps1 disruptant was three-fold higher than that in the wild-type strain. Therefore, such a P. pastoris mutant deficient in YPS1 activity is suitable for the high-level expression of recombinant protein HSA-AX15(R13K).

[Minimization or avoidance of calcineurin inhibitors after renal transplantation].

Calcineurin inhibitors (CNIs) are playing an important role in preventing acute rejection in renal transplantation; however, their nephrotoxicity may impact long-term renal allograft survival. Several CNI-sparing regimens (such as CNI-avoidance or CNI-minimization) have shown at least comparable efficacy with standard-dose CNI regimens. Research continues to achieve the "best" balance between efficacy and toxicity of available immunosuppressive regimens.

[Occurrence, types, and therapies of malignant tumors in recipients of renal transplantation].

OBJECTIVE: To investigate the types and therapies of malignancies in renal allograft recipients. METHODS: We retrospectively analyzed the occurrence, types, and therapies of malignancies in 498 renal allograft recipients who had received operations in Peking Union Medical College Hospital from May 1986 to October 2008. RESULTS: Among 498 renal allograft recipients, 18 patients (3.6% ) were diagnosed with malignancies, which included bladder cancer (n = 5), renal pyloric cancer or ureteric cancer (n = 4), leukemia or lymphoma (n = 3), hepatic cancer (n = 2), skin cancer, rectum carcinoma, pulmonary carcinoma and thymoma (n = 1 each). Surgical operations were performed in 10 cases, 6 of whom survived with normal renal function and had no rejection of transplanted kidneys. Three patients with bladder cancer and one patient with ureteric cancer experienced recurrences 7 to 15 months after operations; among them one bladder cancer patient died. One hepatic carcinoma patient died of pulmonary metastasis 8 months after operation. One non-Hodgkin's lymphoma patient died 11 months after chemotherapy. Five cases with advanced unresectable malignancies died 8 to 17 months after the diagnosis. CONCLUSIONS: The incidences of malignancies, especially urological epithelial carcinoma, are high in renal allograft recipients. Radical surgery of the solid malignancies is a preferred option.

Disruption of Pichia pastoris PMR1 gene decreases its folding capacity on human serum albumin and interferon-alpha2b fusion protein.

In an attempt to increase the secretion capacity of Pichia pastoris (Pp), PpPMR1 gene was disrupted with GS115 as parent strain, and the resultant mutant was designated as Pppmr1. Pppmr1 displayed a Ca2+-dependent growth defect, which was consistent with the PMR1 mutation in other yeasts. HSA-L5-IFNalpha2b, a human serum albumin (HSA) and inferferon-alpha2b (IFNalpha2b) fusion protein with a flexible linker of 5 amino acid residues, was employed as a reporter to study the effects of PpPMR1 disruption on the secretion of heterologous protein. Because of its decreased viability after induction, Pppmr1 secreted more HSA-L5-IFNalpha2b only during the early phase (the first 15 hours) of induction. Although HSA-L5-IFNalpha2b secreted from GS115 and Pppmr1 had similar antiviral activity, the latter was heterogeneous (migrated as doublets on non-reducing SDS-PAGE) and unstable (prone to aggregation at neutral to mild alkaline pH). Site-directed mutagenesis revealed that the heterogeneity of HSA-L5-IFNalpha2b secreted from Pppmr1 was originated from the incomplete disulphide bridge pairing between Cys1 and Cys98 of IFNalpha2b. To be secreted homogeneously from Pppmr1 and to be stable in aqueous solution, the linker of the fusion protein should be extended to 10 amino acid residues.