Recombinant Human Coagulation Factor IX Expressed in HEK293 Cells: Influence of Serin Phosphorylation and Tyrosine Sulfation on Pharmacokinetic Properties in FIX-Knock-out Mice

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 4098-4098
Author(s):  
Ernst Boehm ◽  
Michael Dockal ◽  
Meinhard Hasslacher ◽  
Artur Mitterer ◽  
Eva M Muchitsch ◽  
...  
Keyword(s):  
Factor Ix ◽  
Hek293 Cells ◽  
High Yield ◽  
High Similarity ◽  
Tyrosine Sulfation ◽  
Knock Out ◽  
Pharmacokinetic Properties ◽  
Knock Out Mice ◽  
In Vivo Recovery

Abstract Recombinant factor IX (rFIX) expressed in Chinese hamster ovary (CHO) cells has been shown to be safe and effective in clinical studies, but differs in pharmacokinetics from plasma-derived FIX (pdFIX). In clinical studies, CHO-derived rFIX had a 30–50 % lower in-vivo recovery when compared to pdFIX, whereas mean residence time and terminal half-life did not differ between preparations. Although rFIX shows high similarity to pdFIX in structure and function, differences in glycosylation and gamma-carboxylation degree can be detected. Moreover, although experimental proof has yet to be published, the lower degree of phosphorylation of amino acid serine 155, and the lower degree of sulfation of tyrosine 158 have been hypothesized to be causative for the lower in-vivo recovery of rFIX. These two modifications occur at less than 20 % for the tyrosine-sulfation and at less than 1 % for the serine phosphorylation in rFIX, whereas pdFIX has both modifications to more than 90 % completed. We identified human HEK293 cells to perform rFIX phosphorylation and sulfation to a higher extent than CHO cells. A rFIX-producing cell line derived from HEK293 cells was generated by stable transfection, and was adapted to suspension culture conditions to allow lab-scale fermentation. rFIX was produced and purified from a single fermentation run using two different down-stream process schemes: the first was able to enrich high-phosphorylated and -sulfated rFIX; the second to purify total rFIX from the supernatant at high yield. For pharmacokinetic comparison, these HEK293 materials, CHO-derived rFIX, and a pdFIX preparation were formulated in the same buffer. Determination of phosphorylation and sulfation by mass spectrometry showed a phosphorylation and sulfation degree of 50 % plus a 20 % single modification (phosphorylation or sulfation) for the HEK293-material purified by the modification enrichment method versus 15 % for both modifications plus a 15 % single modification for the material purified by the high-yield protocol. The values for CHO-derived rFIX and pdFIX were similar to those in the literature. Oligosaccharide mapping revealed glycosylation differences among CHO-, HEK293-, and pdFIX preparations, but high similarity between both HEK293-derived materials. We compared the pharmacokinetics of the various FIX preparations in FIX-knock-out mice. In-vivo recovery and area under the curve were statistically significantly higher for the high phosphorylated and sulfated HEK293-material than for total rFIX derived from HEK293 cells. However, these two parameters were lower for both HEK293-derived rFIX preparations than for CHO-derived rFIX, and lower for CHO-derived rFIX than for pdFIX. This may be due to glycosylation differences between these FIX preparations. Mean residence times and terminal half-lives were similar for all preparations. In summary, these findings emphasize that the degree of rFIX-sulfation and -phosphorylation influences the pharmacokinetic properties of rFIX.

Genetic fusion to albumin improves the pharmacokinetic properties of factor IX

2009 ◽  
Vol 102 (10) ◽  
pp. 634-644 ◽  
Author(s):  
Thomas Weimer ◽  
Ulrich Kronthaler ◽  
Wiegand Lang ◽  
Stefan Schulte ◽  
Hubert J. Metzner
Keyword(s):  
Half Life ◽  
Fusion Proteins ◽  
Mammalian Cells ◽  
Factor Ix ◽  
Recurrent Bleeding ◽  
Haemophilia B ◽  
Pharmacokinetic Properties ◽  
Genetic Fusion ◽  
In Vivo Recovery

SummaryHaemophilia B is a X-chromosome linked disease characterised by a deficiency of functionally active coagulation Factor IX (FIX). Patients with severe haemophilia B at risk of recurrent bleeding are treated approximately twice a week in a prophylactic setting by application of FIX concentrates.To increase convenience and compliance of the therapy it is desirable to reduce the dosing frequency by improving the pharmacokinetic properties of FIX. Here a concept of rFIX (recombinant factor IX) albumin fusion proteins (rIX-FPs) with cleavable linker peptides derived from the FIX activation sequence is presented. Constructs of the genetic fusion of FIX to albumin via cleavable linkers were expressed in mammalian cells and characterised after purification. In vitro activation studies with FXIa demonstrated that cleavage of the linker and the activation peptide proceeded comparably well. In a clotting assay the rIX-FPs with cleavable linker showed a 10- to 30-fold increase in the molar specific clotting activity compared to fusion proteins with non-cleavable linkers. Furthermore, in-vivo recovery, terminal half-life and the AUC of rIX-FPs in rats and rabbits as determined by FIX antigen measurements were significantly increased compared to rFIX (BeneFIX®). In FIX deficient (FIX−/−) mice the in-vivo recovery and the AUC were also significantly increased.The efficacy in reducing bleeding time was shown in FIX−/−mice by a tail tip bleeding model. The results suggest that rIX-FPs with a cleavable linker between FIX and albumin are a promising concept that may support the use of the albumin fusion technology to extend the half-life of FIX.

scholarly journals Lack of WWC2 Protein Leads to Aberrant Angiogenesis in Postnatal Mice

2021 ◽  
Vol 22 (10) ◽  
pp. 5321
Author(s):  
Viktoria Constanze Brücher ◽  
Charlotte Egbring ◽  
Tanja Plagemann ◽  
Pavel I. Nedvetsky ◽  
Verena Höffken ◽  
...  
Keyword(s):  
Signalling Pathway ◽  
Control Group ◽  
Knock Out ◽  
Ocular Angiogenesis ◽  
Sprouting Angiogenesis ◽  
Adult Mice ◽  
Upstream Regulator ◽  
Knock Out Mice ◽  
Hippo Signalling

The WWC protein family is an upstream regulator of the Hippo signalling pathway that is involved in many cellular processes. We examined the effect of an endothelium-specific WWC1 and/or WWC2 knock-out on ocular angiogenesis. Knock-outs were induced in C57BL/6 mice at the age of one day (P1) and evaluated at P6 (postnatal mice) or induced at the age of five weeks and evaluated at three months of age (adult mice). We analysed morphology of retinal vasculature in retinal flat mounts. In addition, in vivo imaging and functional testing by electroretinography were performed in adult mice. Adult WWC1/2 double knock-out mice differed neither functionally nor morphologically from the control group. In contrast, the retinas of the postnatal WWC knock-out mice showed a hyperproliferative phenotype with significantly enlarged areas of sprouting angiogenesis and a higher number of tip cells. The branching and end points in the peripheral plexus were significantly increased compared to the control group. The deletion of the WWC2 gene was decisive for these effects; while knocking out WWC1 showed no significant differences. The results hint strongly that WWC2 is an essential regulator of ocular angiogenesis in mice. As an activator of the Hippo signalling pathway, it prevents excessive proliferation during physiological angiogenesis. In adult animals, WWC proteins do not seem to be important for the maintenance of the mature vascular plexus.

FcγRIII (CD16)-Deficient Mice Show IgG Isotype-Dependent Protection to Experimental Autoimmune Hemolytic Anemia

Blood ◽  
1998 ◽  
Vol 92 (11) ◽  
pp. 3997-4002 ◽  
Author(s):  
Dirk Meyer ◽  
Carsten Schiller ◽  
Jürgen Westermann ◽  
Shozo Izui ◽  
Wouter L. W. Hazenbos ◽  
...  
Keyword(s):  
Hemolytic Anemia ◽  
Autoimmune Hemolytic Anemia ◽  
Knock Out ◽  
Effector Cells ◽  
Igg Isotypes ◽  
Knock Out Mice ◽  
Deficient Mice ◽  
Experimental Autoimmune

Abstract In autoimmune hemolytic anemia (AIHA), there is accumulating evidence for an involvement of FcγR expressed by phagocytic effector cells, but demonstration of a causal relationship between individual FcγRs and IgG isotypes for disease development is lacking. Although the relevance of IgG isotypes to human AIHA is limited, we could show a clear IgG isotype dependency in murine AIHA using pathogenic IgG1 (105-2H) and IgG2a (34-3C) autoreactive anti–red blood cell antibodies in mice defective for FcγRIII, and comparing the clinical outcome to those in wild-type mice. FcγRIII-deficient mice were completely resistent to the pathogenic effects of 105-2H monoclonal antibody, as shown by a lack of IgG1-mediated erythrophagocytosis in vitro and in vivo. In addition, the IgG2a response by 34-3C induced a less severe but persistent AIHA in FcγRIII knock-out mice, as documented by a decrease in hematocrit. Blocking studies indicated that the residual anemic phenotype induced by 34-3C in the absence of FcγRIII reflects an activation of FcγRI that is normally coexpressed with FcγRIII on macrophages. Together these results show that the pathogenesis of AIHA through IgG1-dependent erythrophagocytosis is exclusively mediated by FcγRIII and further suggest that FcγRI, in addition to FcγRIII, contributes to this autoimmune disease when other IgG isotypes such as IgG2a are involved.

scholarly journals Pannexin-1 Deficient Mice Have an Increased Susceptibility for Atrial Fibrillation and Show a QT-Prolongation Phenotype

2016 ◽  
Vol 38 (2) ◽  
pp. 487-501 ◽  
Author(s):  
Stella Petric ◽  
Sofia Klein ◽  
Lisa Dannenberg ◽  
Tillman Lahres ◽  
Lukas Clasen ◽  
...  
Keyword(s):  
Atrial Fibrillation ◽  
Cardiac Electrophysiology ◽  
Electrophysiological Study ◽  
Atp Release ◽  
Release Channel ◽  
Knock Out ◽  
Pannexin 1 ◽  
Significant Prolongation ◽  
Knock Out Mice

Background/Aims: Pannexin-1 (Panx1) is an ATP release channel that is ubiquitously expressed and coupled to several ligand-gated receptors. In isolated cardiac myocytes, Panx1 forms large conductance channels that can be activated by Ca2+ release from the sarcoplasmic reticulum. Here we characterized the electrophysiological function of these channels in the heart in vivo, taking recourse to mice with Panx1 ablation. Methods: Cardiac phenotyping of Panx1 knock-out mice (Panx1-/-) was performed by employing a molecular, cellular and functional approach, including echocardiography, surface and telemetric ECG recordings with QT analysis, physical stress testing and quantification of heart rate variability. In addition, an in vivo electrophysiological study entailed programmed electrical stimulation using an intracardiac octapolar catheter. Results: Panx1 deficiency results in a higher incidence of AV-block, delayed ventricular depolarisation, significant prolongation of QT- and rate corrected QT-interval and a higher incidence of atrial fibrillation after intraatrial burst stimulation. Conclusion: Panx1 seems to play an important role in murine cardiac electrophysiology and warrants further consideration in the context of hereditary forms of atrial fibrillation.

Factor IX: Insights from knock-out and genetically engineered mice

2008 ◽  
Vol 100 (10) ◽  
pp. 563-575 ◽  
Author(s):  
Paul E. Monahan
Keyword(s):  
Mouse Models ◽  
Positional Cloning ◽  
Coagulation Factors ◽  
Genetically Engineered ◽  
Factor Ix ◽  
Mouse Strains ◽  
Knock Out ◽  
Haemophilia B ◽  
Genetically Engineered Mice ◽  
Knock Out Mice

SummaryThe study of coagulation factors has been rapidly advanced by studies performed in genetically engineered mouse strains. Investigation of factor IX (FIX) has benefited from excellent genedeleted mouse models that recapitulate many of the features of human haemophilia B. Moreover, advanced positional cloning techniques and availability of technology to allow not only knock-out mice, but also knock-in and knock-down mice, provide new opportunities to observe genotype-phenotype and structure-function correlations regarding FIX, as well as the interaction of FIX with inflammatory, immune, and tissue repair systems. In this paper, available FIX knock-out mice and additional haemophilia B mouse models are reviewed specifically in regards to observations these models have facilitated concerning: factor IX gene expression and factor IX protein pharmacokinetics; the role of FIX in haemostasis, thrombosis and wound healing; insights into coagulation FIX arising out of gene therapy applications in haemophilia mouse models; immunology of tolerance or loss of tolerance of FIX and inhibitor antibody formation.

In Vitro and In Vivo Characterization of Full-Length rFVIII Modified with PEG Via Coupling to Primary Amino Groups.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 3147-3147 ◽  
Author(s):  
Peter L. Turecek ◽  
Jürgen Siekmann ◽  
Herbert Gritsch ◽  
Katalin Váradi ◽  
Rafi-Uddin Ahmad ◽  
...  
Keyword(s):  
Half Life ◽  
Hemophilia A ◽  
Specific Activity ◽  
Exchange Chromatography ◽  
Full Length ◽  
Thrombin Inhibitor ◽  
Knock Out ◽  
Knock Out Mice

Abstract Chemical modification of recombinant therapeutic proteins with PEG has been shown to enhance the biological half-life. Here we assess the effect of PEGylation on FVIII. Full-length rFVIII bulk drug substance from protein-free fermentation (Advate process, Baxter) was conditioned into a buffer suitable for coupling to polyethylene glycol succinimidyl succinate (linear PEG, 5 kDa PEG chain length). PEG was covalently bound by amine coupling preferentially to lysine residues of FVIII at neutral pH. PEG was removed by ion-exchange chromatography and the PEG-FVIII derivative was concentrated by ultra-diafiltration. The conjugates thus obtained retained about 30–40% of the activity of non-modified rFVIII. The specific activity decreased with the amount of PEG linked to the FVIII molecule. In SDS-PAGE and immunoblot studies PEGylated rFVIII showed a band pattern similar to unmodified FVIII with full-length, heavy chain fragments of 180 kDa and 120 kDa and the light chain fragment of 80 kDa. PEGylation also occurred to a high extent in the B domain of FVIII. All bands appeared broadened due to the attachment of polymeric PEG. The maintenance of functionality of FVIII was demonstrated by its potential to be activated and inactivated by thrombin. In the assay PEGylated and unmodified FVIII were incubated with 1 nM thrombin. Sub-samples were drawn at intervals up to 40 minutes and added to a mixture of FIXa, FX, phospholipid vesicles and Ca2+ containing a thrombin inhibitor. After 3 minutes incubation at 37°C the amount of activated FX (FXa) was measured using a FXa-specific chromogenic substrate. Unmodified rFVIII showed a typical picture of an immediate increase in FXa activity and a subsequent decline with no further FXa generation after 15 minutes. PEGylated rFVIII was activated to the same extent as unmodified FVIII but the decay in FXa generation was slower and did not reach the zero level, even 40 minutes after incubation. The formation of the typical thrombin cleavage fragments, with unmodified as well as PEGylated rFVIII, was demonstrated in a Western blot analysis. The slower inactivation by thrombin was also seen there. The pharmacokinetic properties of PEGylated rFVIII compared with rFVIII were investigated in hemophilia A knock-out mice. Both preparations were applied at a dose of 200 IU rFVIII/kg and groups of mice (n=5) were exsanguinated at several time points up to 24 hours. Terminal half-life for PEGylated rFVIII was calculated at 4.9 hours compared with 1.9 hours for unmodified rFVIII in hemophilia A knock-out mice. AUC was approximately doubled. These results indicate that rFVIII can be biochemically modified with PEG whilst at least partly retaining its major functions, but at the same time prolonging its survival in the circulation of hemophilic mice.

FcγRIII (CD16)-Deficient Mice Show IgG Isotype-Dependent Protection to Experimental Autoimmune Hemolytic Anemia

Blood ◽  
1998 ◽  
Vol 92 (11) ◽  
pp. 3997-4002 ◽  
Author(s):  
Dirk Meyer ◽  
Carsten Schiller ◽  
Jürgen Westermann ◽  
Shozo Izui ◽  
Wouter L. W. Hazenbos ◽  
...  
Keyword(s):  
Hemolytic Anemia ◽  
Autoimmune Hemolytic Anemia ◽  
Knock Out ◽  
Effector Cells ◽  
Igg Isotypes ◽  
Knock Out Mice ◽  
Deficient Mice ◽  
Experimental Autoimmune

In autoimmune hemolytic anemia (AIHA), there is accumulating evidence for an involvement of FcγR expressed by phagocytic effector cells, but demonstration of a causal relationship between individual FcγRs and IgG isotypes for disease development is lacking. Although the relevance of IgG isotypes to human AIHA is limited, we could show a clear IgG isotype dependency in murine AIHA using pathogenic IgG1 (105-2H) and IgG2a (34-3C) autoreactive anti–red blood cell antibodies in mice defective for FcγRIII, and comparing the clinical outcome to those in wild-type mice. FcγRIII-deficient mice were completely resistent to the pathogenic effects of 105-2H monoclonal antibody, as shown by a lack of IgG1-mediated erythrophagocytosis in vitro and in vivo. In addition, the IgG2a response by 34-3C induced a less severe but persistent AIHA in FcγRIII knock-out mice, as documented by a decrease in hematocrit. Blocking studies indicated that the residual anemic phenotype induced by 34-3C in the absence of FcγRIII reflects an activation of FcγRI that is normally coexpressed with FcγRIII on macrophages. Together these results show that the pathogenesis of AIHA through IgG1-dependent erythrophagocytosis is exclusively mediated by FcγRIII and further suggest that FcγRI, in addition to FcγRIII, contributes to this autoimmune disease when other IgG isotypes such as IgG2a are involved.

scholarly journals Identification of a developmental switch in information transfer between whisker S1 and S2 cortex in mice

2021 ◽  
Author(s):  
Theofanis Karayannis ◽  
Linbi Cai ◽  
Jenq-Wei Yang ◽  
Shen-Ju Chou ◽  
Chia-Fang Wang ◽  
...  
Keyword(s):  
Information Transfer ◽  
Barrel Cortex ◽  
Wide Field ◽  
Sensory Stimuli ◽  
Knock Out ◽  
Electrophysiological Recordings ◽  
Primary Sensory Cortex ◽  
Animal Navigation ◽  
Knock Out Mice

The whiskers of rodents are a key sensory organ that provides critical tactile information for animal navigation and object exploration throughout life. Previous work has explored the developmental sensory-driven activation of the primary sensory cortex processing whisker information (wS1), also called barrel cortex. This body of work has shown that the barrel cortex is already activated by sensory stimuli during the first post-natal week. However, it is currently unknown when over the course of development these stimuli begin being processed by higher order cortical areas, such as secondary whisker somatosensory area (wS2). Here we investigate for the first time the developmental engagement of wS2 by sensory stimuli and the emergence of cortico-cortical communication from wS1 to wS2. Using in vivo wide-field imaging and electrophysiological recordings in control and conditional knock-out mice we find that wS1 and wS2 are able to process bottom-up information coming from the thalamus already right after birth. We identify that it is only at the end of the first post-natal week that wS1 begins to provide excitation into wS2, a connection which begins to acquire feed-forward inhibition characteristics after the second post-natal week. Therefore, we have uncovered a developmental window during which excitatory versus inhibitory functional connectivity between wS1 and wS2 takes place.

scholarly journals A Novel Lysine to Arginine Substitution at Position 301 Enhances Activity of Factor IX

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 3772-3772
Author(s):  
Daniel Verhoef ◽  
Jonathan H. Foley ◽  
Andrew Goodale ◽  
Emma Macrae ◽  
Jenny McIntosh ◽  
...  
Keyword(s):  
Gene Transfer ◽  
Specific Activity ◽  
Factor Ix ◽  
Wild Type ◽  
Gain Of Function ◽  
Employment Equity ◽  
Knock Out ◽  
Genome Integration ◽  
Equity Ownership ◽  
Knock Out Mice

Abstract Introduction: AAV-mediated gene transfer of blood coagulation Factor IX (FIX) has been established as a safe and long-term treatment for patients suffering from severe hereditary Haemophilia B. A gain-of-function F9 transgene (F9-R338L; Padua) has recently been used to achieve higher functional levels of FIX, effectively eliminating the need for regular prophylaxis. The naturally-occurring R338L Padua mutation is situated in the catalytic domain of FIX on a helical side loop (region 332-339) that is involved in FVIIIa-mediated stimulation of substrate turnover. Here, we examined if a single amino acid substitution of a lysine at position 301 leads to gain of function. This basic residue sits adjacent to the 332-339 loop on an exposed helical segment (292-303) that has been implicated to interact with the FVIIIa A2 domain in the FIXa-FVIIIa tenase complex. Methods: We examined the lysine at position 301 (numbering based on mature polypeptide chain) in more detail by conservative mutation to arginine (K301R) and non-conservative mutation to leucine (K301L). To assess specific FIX activity, F9-K301 variants were transiently expressed in HEK293T cells and tested for antigenic FIX levels and chromogenic activity 48 hours post transfection. To assess specific activity in plasma, AAV-mediated gene transfer (1x1010vg/mouse) of F9-K301 variants in hemophilia B knock-out mice (CL57B6) was carried out. In addition, we investigated whether the F9-K301R mutation enhances specific activity in combination with the F9-R338L Padua mutation via site-specific genome integration. Results: Transient transfection of F9-K301 variants in HEK293T cells showed a 25% increase in specific activity with F9-K301R but a 50% reduction in activity with F9-K301L as compared to wild type F9 (WT-F9). Validation of gain-of-function was done by AAV-mediated gene transfer in hemophilia B knock-out mice. Four weeks post injection, plasma FIX antigen levels were similar in mice transduced with either F9-K301R (0.91±0.3 U/ml; N=3), F9-K301L (0.93±0.0 U/ml; N=2) or WT-F9 (0.94±0.19 U/ml; N=4) constructs. Interestingly, specific chromogenic activity in plasma from F9-K301R mice (2.71±0.66 U/ml) was more than 2-fold higher compared to plasma from mice in the WT-F9 cohort (1.25±0.2 U/ml). On the other hand, specific activity in the F9-K301L cohort (0.37±0.07 U/ml) was reduced compared to wild type F9, consistent with a haemophilic phenotype. Next, we investigated whether the F9-K301R mutation enhances activity in combination with the F9-R338L Padua mutation. To do so, we stably expressed wild type FIX (WT-FIX) and three FIX gain-of-function variants (FIX-K301R, FIX-R338L and FIX-K301R/R338L) in HEK293 cells via site-specific genome integration. Interestingly, higher FIX antigen levels were observed in conditioned media from cells (1.5x106) stably expressing FIX-K301R (0.14±0.01 U/ml) FIX-R338L (0.11±0.01 U/ml) and FIX-K301R/R338L (0.10±0.01 U/ml) relative to cells expressing WT-FIX (0.08±0.01 U/ml). Similar to previous results, specific chromogenic activity was more than 2-fold higher in FIX-K301R (1.25±0.08 U/ml) compared to WT-FIX (0.54±0.06 U/ml). In addition, specific activity was higher in FIX-K301R/R338L (7.71±0.35 U/ml) compared to FIX-R338L (6.69±0.32 U/ml), suggesting molecular synergism between both gain-of-function mutations. Ongoing studies are focused on characterizing these recombinant FIX variants in purified and plasma-based activity assays and unraveling the mechanism(s) leading to increased expression/secretion of these gain-of-function variants. Conclusion: In summary, these results show that the K301R mutation enhances catalytic activity of FIX in vitro and in vivo and synergistically enhances activity in combination with the R338L Padua mutation. As such, this gain-of-function mutation could potentially serve to facilitate higher levels of FIX activity in the plasma of Haemophilia B patients following AAV-mediated gene transfer. Disclosures Verhoef: Freeline: Employment, Equity Ownership. Foley:Freeline: Employment, Equity Ownership. Goodale:Freeline: Employment, Equity Ownership. Macrae:Freeline: Employment, Equity Ownership. McIntosh:BioMarin: Patents & Royalties; Freeline: Consultancy, Equity Ownership. Corbau:Freeline: Employment, Equity Ownership. Nathwani:Freeline: Consultancy, Equity Ownership, Membership on an entity's Board of Directors or advisory committees.

scholarly journals Cholesterol Regulates Exosome Release in Cultured Astrocytes

2021 ◽  
Vol 12 ◽  
Author(s):  
Mohammad Abdullah ◽  
Tomohisa Nakamura ◽  
Taslima Ferdous ◽  
Yuan Gao ◽  
Yuxin Chen ◽  
...  
Keyword(s):  
High Fat Diet ◽  
Normal Diet ◽  
Cellular Cholesterol ◽  
Knock Out ◽  
Pi3k Inhibitor Ly294002 ◽  
Akt Phosphorylation ◽  
Cholesterol Levels ◽  
Cultured Astrocytes ◽  
Knock Out Mice

Exosomes are vesicles secreted by various kinds of cells, and they are rich in cholesterol, sphingomyelin (SM), phosphatidylcholine, and phosphatidylserine. Although cellular sphingolipid-mediated exosome release has been reported, the involvement of other lipid components of cell membranes in the regulation of exosome release is poorly understood. Here, we show that the level of exosome release into conditioned media is significantly reduced in cultured astrocytes prepared from apolipoprotein E (ApoE) knock-out mice when compared to those prepared from wild-type (WT) mice. The reduced level of exosome release was accompanied by elevated levels of cellular cholesterol. The addition of cholesterol to WT astrocytes significantly increased the cellular cholesterol levels and reduced exosome release. PI3K/Akt phosphorylation was enhanced in ApoE-deficient and cholesterol-treated WT astrocytes. In contrast, the depletion of cholesterol in ApoE-deficient astrocytes due to treatment with β-cyclodextrin recovered the exosome release level to a level similar to that in WT astrocytes. In addition, the reduced levels of exosome release due to the addition of cholesterol recovered to the control levels after treatment with a PI3K inhibitor (LY294002). The cholesterol-dependent regulation of exosome release was also confirmed by in vivo experiments; that is, exosome levels were significantly reduced in the CSF and blood serum of WT mice that were fed a high-fat diet and had increased cholesterol levels when compared to those in WT mice that were fed a normal diet. These results suggest that exosome release is regulated by cellular cholesterol via stimulation of the PI3K/Akt signal pathway.

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