The principal protease system in bovine milk

Rao, Navaneetha K. M.

12 June 2010

Plasmin is the principal endogenous protease in bovine milk. Distribution of overall proteolytic potential among milk fractions was determined using Coumarin Substrate as a synthetic substrate. Casein containing fractions had a higher amidolytic potential. However, preparation of casein by acid treatment produced increased dissociation of plasminogen and plasmin from casein. The variable results obtained from milks of different cows could be due in part to the influence of inhibitors and activators of the fibrinolytic system present in milk. We have shown, for the first time, the occurrence of α₂-M in bovine skimmilk (using SRID) at a level (using ELISA) of 1.54 +/- 0.91 mg/ml. This inhibitor appeared to primarily associate with the acid whey fraction. A high level (< 1 mg/ml) of α₂-M was also detected in human skimmilk. The other major fibrinolytic inhibitor, α₂-AP, as well as the complex formed between this inhibitor and plasmin were also shown to occur in human milk. We used a coupled colorimetric assay to demonstrate the occurrence of a fibrin-independent plasminogen activator (similar to u-PA) in bovine skimmilk. The occurrence of a u-PA like activator in bovine milk was further confirmed in co-polymerized gel electrophoresis. Moreover, u-PA could also be detected in a sample of human skimmilk. However, the electrophoretic gel patterns also contained additional zones of clearing which may be due to the occurrence of other activators in bovine milk. These plasminogen activators may be fragments of u-PA, or t-PA (shown to occur in sow milk) which retain catalytic activity. The occurrence of such high levels of α₂-M (~ 4% of the total protein) and plasminogen activators may be of tremendous significance to the dairy industry, as they may not only influence plasmin-mediated proteolysis of milk proteins, but may also interfere with the action of milk clotting enzymes. / Master of Science

LD5655.V855 1988.R365

Fibrinolysis

Milk -- Analysis

Plasmin

Characterization and Functional Analysis of a Newly Identified Human MT5-MMP Transcript Variant Isolated from Multipotent NT2 Cells

Ross, Heather Hamilton

01 January 2006

Membrane-type 5 matrix metalloproteinase (MT5-MMP) is unique among MMP family members as it is predominately expressed in the CNS. Its expression is ubiquitous during brain development and restricted to regions of neurogenesis and neuroplasticity in the adult. MT5-MMP is a mediator of pericellular proteolysis and is thought to have a functional impact on neurite outgrowth. The studies presented in this work were designed to examine MT5-MMP expression in cultured NT2 cells, a model of newogenesis and neuronal differentiation, and in adult neurogenic brain regions. We further sought to overexpress MT5-MMP and test the hypothesis that it plays a role in substrate-specific cell motility.MTS-MMP mRNA was expressed in NT2 cells and was significantly higher in differentiated neuronal hNT cells. MT5-MMP cDNA cloned from NT2 cells unexpectedly revealed a novel sequence (MTS-MMPvar) which was 92% homologous with the published MT5-MMP and was characterized by a 162 bp deletion. Both transcripts could be identified in NT2, hNT and adult human hippocampus. The newly cloned MT5-MMPvar cDNA translated into an approximately 52 kDa protein as seen in in vitro expression studies. Using an MTS-MMPvar specific antibody designed to span the 162 bp deletion, MT5-MMPvar protein could be detected in NT2 cells and these protein levels increased in their neuronal counterparts, hNT cells. MT5-MMPvar protein was also expressed in adult human hippocampal tissue. MT5-MMPvar protein was shown to be expressed in a murine region of neurogenesis and plasticity, suggesting the existence of a murine homolog of this variant.Based on bioinformatic analysis, the MT5-MMPvar transcript was predicted to lack a sufficient signal peptide and to remain a Type-I membrane protein. This computer assisted modeling suggests that the most significant functional implication of MTS-MMPvar sequence variations is to affect its direction into the ER for processing. Functional studies using COS-7 cells genetically modified to overexpress MT5- MMPvar demonstrated no difference in cellular motility compared to parental or vector control cells. Preliminary studies show MT5-MMPvar expression in COS-7 cells associated with perinuclear structures and the cell membrane. Adult human neural progenitor cells stimulated to differentiate into immature neurons demonstrated MT5-MMPvar expression associated with the cell membrane and process outgrowths. This work has identified a novel transcript variant of the human MTS-MMP gene and shown that the protein product of this gene is significantly higher in differentiated NT2 cells. This, combined with preliminary results suggesting MT5- MMPvar cellular redistribution in more mature cell types, indicates a role for MTSWvar in neural differentiation and function.

endopeptides

plasmin system

cysteine

furin

Anatomy

Medicine and Health Sciences

Nervous System

Development of novel strategies for detection and treatment of cancer

Samarakoon, Thilani Nishanthika

January 1900

Doctor of Philosophy / Department of Chemistry / Stefan H. Bossmann / Cancer is one of the leading causes of death in the world. Billions of dollars are spent to treat cancer every year. This clearly shows the need for developing improved treatment techniques that are affordable to every person. Early diagnosis and imaging of tumors is equally important for the battle against this disease. This dissertation will discuss new approaches for discovering and developing novel detection and treatment techniques for cancer using organic ligands, and Fe/Fe3O4 core/shell magnetic nanoparticles. A series of o-phenylenediamine derivatives with nitro-, methyl- and chloro- substituents were synthesized and studied their ability to act as anticancer agents by using steady-state, UV/Vis-, and fluorescence spectroscopy. In the absence of zinc(II), intercalation with DNA is the most probable mode of interaction. Upon addition of zinc(II), DNA-surface binding of the supramolecular aggregates was observed. The interaction of the supramolecular (-ligand-Zn2+-)n aggregates with MDA 231 breast cancer cells led to significant cell death in the presence of UVA at λ=313 nm displaying their potential as anticancer agents. Bimagnetic Fe/Fe3O4 core/shell nanoparticles (MNPs) were designed for cancer targeting after intratumoral or intravenous administration. Their inorganic center was protected by dopamine-oligoethylene glycol ligands. TCPP (4-tetracarboxyphenyl porphyrin), a fluorescent dye, was attached to the dopamine-oligoethylene glycol ligands. These modified nanoparticles have the ability to selectively accumulate within the cancerous cells. They are suitable candidates for local hyperthermia treatment. We have observed a temperature increase of 11 ºC in live mice when subcutaneously injecting the MNPs at the cancer site and applying an alternating magnetic field The system is also suitable for Magnetic Resonance Imaging (MRI), which is a diagnostic tool to obtain images of the tumors. Our superparamagnetic iron oxide nanoparticles have the ability to function as T1 weighted imaging agents or positive contrasting agents. We were able to image tumors in mice using MRI. Various proteases are over-expressed by numerous cancer cell lines and, therefore, of diagnostic value. Our diagnostic nanoplatforms, designed for the measurement of protease activities in various body fluids (blood, saliva, and urine), comprise Fe/Fe3O4 core/shell nanoparticles featuring consensus sequences, which are specific for the target protease. Linked to the consensus sequence is a fluorescent organic dye (e.g. TCPP). Cleavage of the sequence by the target protease can be detected as a significant increase in fluorescence occurring from TCPP. We were able to correlate our diagnostic results with cancer prognosis.

Urokinase plasmin activator (UPA)

Matrix metalloproteinases (MMPs)

Fluorescence assays

Cancer detection

Cancer treatment

Hyperthermia

Chemistry (0485)

Plasmin : a potent pro-inflammatory factor

Guo, Yongzhi

January 2008

Plasmin, the central molecule of the plasminogen activator system, is a broad-spectrum serine protease. Plasmin is important for the degradation of fibrin and other components of the extracellular matrix (ECM) during a number of physiological and pathological processes. The aim of this thesis was to elucidate the functional roles of plasmin during pathological inflammation and infection in autoimmune and non-autoimmune diseases. For this purpose, mouse models of rheumatoid arthritis (RA), bacterial arthritis, infection, and sepsis have been used. Previous studies from our laboratory have shown that plasminogen-deficient mice are resistant to the development of collagen type II-induced arthritis (CIA). In contrast, others have shown that plasmin plays a protective role in antigen-induced arthritis (AIA). To investigate the contrasting roles of plasminogen deficiency in models of CIA and AIA, a new animal model of arthritis called local injection-induced arthritis (LIA) was developed. In this model, we replaced methylated bovine serum albumin, which is normally used as an immunogen in the AIA model, with collagen type II (CII) to induce arthritis. When wild-type and plasminogen-deficient mice were injected intra-articularly with CII or 0.9% NaCl following CIA induction, plasminogen-deficient mice developed typical CIA, but the disease was less severe than in wild-type mice and was restricted to the injected joints. When the AIA model was used, plasminogen-deficient mice developed a much more severe arthritis than the wild-type mice. These results indicate that both the antigen and joint trauma caused by the local injection are critical to explaining the contrasting roles of plasminogen deficiency in CIA and AIA. This indicates that CIA and AIA have distinct pathogenic mechanisms and plasmin plays contrasting roles in different types of arthritis models. To study the functional roles of plasmin in the host inflammatory response during infectious arthritis, a Staphylococcus aureus-induced bacterial arthritis model was established. When wild-type mice were injected intra-articularly with 1 × 106 colony-forming units (CFU) of S. aureus per joint, all the bacteria were completely eliminated from the injected joints in 28 days. However, in the plasminogen-deficient mice, the S. aureus counts were 27-fold higher at day 28 than at day 0. When human plasminogen was given to the plasminogen-deficient mice daily for 7 days, the bacterial clearance was greatly improved and the necrotic tissue in the joint cavity was also completely eliminated. Supplementation of plasminogen-deficient mice with plasminogen also restored the expression level of interleukin-6 (IL-6) in the arthritic joints. In summary, plasmin has protective roles during S. aureus-induced arthritis by enhancing cytokine expression, removing necrotic tissue, and mediating bacterial killing and inflammatory cell activation. The functional roles of plasmin during infection and sepsis were also studied in mice. Infection was induced by injecting 1 × 107 CFU of S. aureus intravenously and the sepsis model was induced by injecting 1.6 × 108 CFU of S. aureus. In the infection model, the wild-type mice had a 25-day survival rate of 86.7%, as compared to 50% in the plasminogen-deficient group. However, when sepsis was induced, the average survival for plasminogen-deficient mice was 3 days longer than for wild-type mice. Twenty-four hours after the induction of sepsis, the serum levels of IL-6 and IL-10 as well as the bacterial counts in all organs investigated were significantly higher in wild-type mice than in plasminogen-deficient mice. In wild-type mice, blockade of IL-6 by intravenous injection of anti-IL-6 antibodies significantly prolonged the onset of mortality and improved the survival rate during sepsis. These data indicate that plasmin plays different roles during infection and sepsis. Furthermore, plasmin appears to be involved in the regulation of inflammatory cytokine expression during sepsis. Taken together, our data indicate that plasmin plays multifunctional pro-inflammatory roles in different autoimmune and non-autoimmune diseases. The pro-inflammatory roles of plasmin include activation of inflammatory cells, regulation of cytokine expression, and enhancement of the bacterial killing ability of the host.

plasmin

inflammation

rheumatoid arthritis

bacterial arthritis

infection

sepsis

cytokine

signal transduction

Pathology

Patologi

Atividade plasmina simile e sequencia parcial de enzima fibrino(geno)litica do veneno de Bothrops lanceolatus (Fer de lance)

Sant'Ana, Christina Maria de

19 August 2005

Orientador: Albetiza Lobo de Araujo / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-05T20:58:23Z (GMT). No. of bitstreams: 1 Sant'Ana_ChristinaMariade_M.pdf: 302187 bytes, checksum: 422061925f0c5378a445c566afe71b75 (MD5) Previous issue date: 2005 / Resumo: O envenenamento botrópico leva ao desenvolvimento de eventos como necrose, hemorragia e distúrbios da coagulação, gerando um quadro fisiopatológico de grande complexicidade. O trabalho de Lôbo de Araújo et al. de 1998 descreveu uma proteína de cadeia polipeptídica simples (PII1A), a qual apresentou atividade enzimática tipo esterolítica, proteína esta, proveniente do veneno da Bothrops lanceolatus, uma serpente habitante da ilha da Martinica, no Caribe. A imunodifusão e a imunoeletroforese apresentaram uma linha simples de imunoprecipitado. A fração em questão ainda hidrolisou as cadeias a e b do fibrinogênio, o que levou a classificar esta proteína como uma enzima fibrino(geno)lítica. No presente trabalho, nos propusemos a dar continuidade ao estudo desta proteína parcialmente purificada e caracterizada e investigar sua atividade como ativadora de plasminogênio ou portadora de atividade fibrinolítica, assim a atividade plasmina símile foi determinada pela ação da proteína diretamente sobre substrato cromogênico específico (S-2251ä), estando de acordo com achados publicados por Lôbo de Araújo et al (1998) e que revelou também discreta atividade ativadora de plasminogênio, quando compara-se incubação na presença e ausência deste. Determinamos 71% da seqüência de aminoácidos da PII1A por espectrometria de massa ¿ Q-tof, este método revelou um peso molecular de 28.360 kDa. A análise da seqüência em base de dados mostrou homologia com outras proteínas se serpentes e com enzimas como tripsina e fatores da cascata de coagulação / Abstract: The main symptoms following bothropic envenoming are necroses, hemorrhage and coagulopathies, originating a characteristic and complex phisiopathology. The work of Lôbo de Araújo et al. (1998) described a single polipeptide chain protein (PII-1A) purified from Bothrops lanceolatus venom, a snake inhabitant of the Martinica island. The immunodiffusion and immunoeletrophoresis analysis showed a single immunoprecipitin line. This protein was characterized as a fibrino(geno)lytic enzyme since was able to hydrolyze the a and b chains of fibrinogen. Using synthetic substrates, the authors demonstrated a strong sterolytic activity against p-TAME. In the present work we continue to study this protein (PII-1A) investigating its activity to activate plasminogen or to present a direct fibrinolytic activity using S-2251ä substrate. The determination of its partial sequence, including N-terminal, was carried through by mass spectrometry - Q-tof that showed molecular weight 28.369 kDa / Mestrado / Farmacologia / Mestre em Farmacologia

Plasmina

Hemorragia

Envenenamento

Bothrops

Fibrinolíticos

Mordeduras de cobra

Plasmin

Fibrinolytic agents

Snake bites

Plasmin administration during ex vivo lung perfusion ameliorates lung ischemia-reperfusion injury / 体外肺灌流中のプラスミン投与は、肺の虚血再灌流障害を軽減する

Motoyama, Hideki

25 May 2015

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19173号 / 医博第4015号 / 新制||医||1010(附属図書館) / 32165 / 京都大学大学院医学研究科医学専攻 / (主査)教授 木村 剛, 教授 福田 和彦, 教授 小池 薫 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

lung transplantation

marginal donor

ex vivo lung perfusion

fibrinolytic treatment

plasmin

490

Interactions of a covalently - linked antithrombin-heparin complex with components of the fibrinolytic pathway

Chander, Ankush

10 1900

<p>Unfractionated heparin (UFH) is used as an adjunct during thrombolytic therapy. However, its use is associated with many clinical limitations, such as the inability to inhibit fibrin-bound coagulation factors, increasing the potential for sustained procoagulant activity. We have developed a covalent conjugate of antithrombin (AT) and heparin (ATH) with superior anticoagulant properties to those of UFH. Some advantages of ATH include enhanced inhibition of surface-bound enzymes and its ability to reduce the overall size and mass of clots <em>in vivo</em>. However, the potential interactions of UFH or ATH with the components of the fibrinolytic pathway are not well understood. Therefore, our study utilized discontinuous second order rate constant (<em>k₂</em>) assays to determine rates of inhibition of plasmin (Pn) in the presence or absence of fibrin by AT+UFH <em>vs.</em> ATH. In addition, we monitored the rates of Pn generation in a system comprised of preformed fibrin clots with the aim of evaluating the inhibitory effect of AT+UFH or ATH in this more native system. The <em>k₂</em>values for the inhibition of Pn without fibrin were 5.74x10⁶±0.278x10⁶ and 6.39x10⁶±0.588x10⁶ for AT+UFH and ATH, respectively (p=0.36). In the presence of fibrin, the <em>k₂</em>values decreased to 1.45x10⁶±0.0971x10⁶ for AT+UFH and 3.07x10⁶±0.192x10⁶for ATH (<em>p</em></p> / Master of Science (MS)

Heparin

Fibrinolysis

Plasmin

Thrombosis

Thrombolysis

Coagulation

Biochemistry

Hematology

Medicinal and Pharmaceutical Chemistry

Biochemistry

ROLE OF PROTEASE-ACTIVATED RECEPTORS IN PLATELET ACTIVATION

Mao, Yingying

January 2009

Platelets act as a fundamental component of the hemostatic process and their activation leads to the formation of a stable clot at the injured endothelium surface. Thrombin, as the important physiological agonist, activates platelets through protease-activated receptors (PARs). Protease-activated receptors are one of the major receptors in platelets and belong to the seven-transmembrane G-protein couple receptor family. Four protease-activated receptors are found, named as PAR1, PAR2, PAR3 and PAR4. Human platelets express PAR1 and PAR4 and murine platelets express PAR4 and PAR3 instead of PAR1. Thrombin activates PARs through a unique mechanism, involving the cleavage of N-terminus of PAR receptors and the newly exposed N-terminus acts as its own tethered ligand to bind and activate the receptor. In this study, we characterized a new PAR1 specific activating peptide (TFRRRLSRATR), generated from the c-terminus of human platelet P2Y1 receptor, and evaluated its biological function. This peptide activated platelets in a concentration-dependent manner, causing shape change, aggregation, secretion and calcium mobilization. Its activation is completely inhibited by using BMS200261, a PAR-1 specific antagonist. Its specificity to PAR1 receptor is further confirmed by using TFRRR-peptide-pretreated washed platelets and murine platelets. The shape change induced by 10 microM peptide was totally abolished by Y-27632, an inhibitor of p160ROCK which is the downstream signal of G12/13 pathways. The TFRRR-peptide, YFLLRNP, and the physiological agonist thrombin selectively activated G12/13 pathways at low concentrations and began to activate both Gq and G12/13 pathways with increased concentrations. Similar to SFLLRN, the TFRRR-peptide caused phosphorylation of Akt and Erk in a P2Y12 receptor-dependent manner, and p-38 MAP kinase activation in a P2Y12-independent manner. The effects of this peptide are elicited by the first six amino acids (TFRRRL) whereas the remaining peptide (LSRATR), TFERRN, or TFEERN had no effects on platelets. Beside thrombin, PARs also can be activated by other proteases. Previous studies in our lab show that plasmin, a major extracellular protease, activates both human and murine platelets through prototypical cleavage of PAR4 (Quinton et al., 2004). In this study, we continue our study and investigate the molecular basis for the differential activation of murine and human platelets by plasmin. Plasmin-induced full aggregation is achieved at lower concentrations (0.1 U/mL) in murine platelets as compared to human platelets (1 U/mL). In COS7 cells expressing the murine PAR4 (mPAR4) receptor, 1 U/mL plasmin caused a higher intracellular calcium mobilization than in cells expressing the human PAR4 (hPAR4) receptor. This difference was reversed when the tethered ligand sequences of mPAR4 and hPAR4 were interchanged through site-directed mutagenesis. This difference between human and murine PAR4 is not because of the cofactor effect of PAR3 in murine platelets by showing that in both transfected cell lines and platelet system, PAR3 inhibits plasmin-induced PAR4 stimulation. All of the data suggest that murine platelets are more sensitive to activation by plasmin than human platelets due to differences in the primary sequence of PAR4. In contrast to thrombin-dependent activation of platelets, wherein PAR3 acts as a co-receptor, mPAR3 inhibits plasmin-induced PAR4 activation. Abnormal platelet activation causes thrombus formation and induces pathological conditions including stroke and atherosclerosis. Antithrombotic therapy is a widely used therapeutic method for stroke. However, currently used agents based on the irreversible inhibition of the platelet cyclooxygenases 1 and 2 or inhibition of P2Y12 receptors can cause unexpected bleeding or resistant side effects. Antithrombotic therapy targeting thrombin signaling is one of the new treatments under investigation and PAR1 antagonists are now in clinical trials. In this study, we investigate the effect of one of thrombin receptors, protease-activated receptor 4 (PAR4) in mice transient middle cerebral artery occlusion/ reperfusion (tMCAO/R) model. Our data show that PAR4 -/- mice have more than 80% reduction in infarct volume and significant improved neurological and motor function after 1 h MCAO followed by 23 h reperfusion. Examination of cellular responses to tMCAO/R indicates that PAR4-/- mice have less cellular death. Platelet/endothelial and leukocyte/endothelial interactions have been shown to play a critical role in the inflammatory responses during cerebral ischemic/reperfusion injury. Comparing wild-type with PAR4-/- mice platelets/endothelial and leukocyte/endothelial interactions, deficiency of PAR4 causes a significant decrease in both platelet/endothelial and leukocyte/endothelial interactions. In addition, PAR4-/- mice attenuate blood-brain barrier (BBB) disruption during tMCAO/R. All the data suggest that deficiency of PAR4 will protect against brain ischemic injury though attenuation of cerebral inflammatory responses including inflammatory cells extravasation and BBB disruption. Protease-activated receptor 4 (PAR4) is the only thrombin receptor existing in both human and murine platelets. The data we get in this study also have a beneficial effect for human study and inhibition of PAR4 may provide a novel potential therapeutic strategy for ischemic injury. / Physiology

Biology, Physiology

Ischemic Injury

Par1 Agonist

Plasmin

Platelet

Protease-activated Receptor

Bacterial expression, purification and characterization of human alpha 2 antiplasmin

Bhatia, Harminder Singh

01 January 2006

The serpin antiplasmin (APL) is the primary inhibitor of plasmin, a proteinase that digests fibrin, the main component of blood clots. Most serpins are serine protease inhibitors, which undergo dramatic conformational change in forming a tight covalent complex with the target protease. Plasmin has been shown to be angiogenic through its protease activity, but it is also angiostatic, being the source of angiostatin, which inhibits angiogenesis. The main objective of our study is to obtain antiplasmin in large amounts, for crystallization and structure determination of APL and of its complex with plasmin, and for solution studies of the complex. Bacterially expressed APL will not be glycosylated, an advantage in crystallization trials.Bacterial expression of rAPL has been problematic. We have found that it can be greatly enhanced through the use of host E.coli cells that carry extra copies of genes for tRNAs coding for rarely used codons in E.coli that occur in high frequency in eukaryotic genes. Several vectors were screened for rAPL expression (pET19b, pET20b and pET28b). rAPL is expressed in high yield from a pET28b construct in host BL-21 RIPL codon plus cells. rAPL thus expressed accumulates as inclusion bodies, but can be solubilized using N-lauroyl sarcosine at pH11. Refolding and purification of rAPL is achieved by using a sizing column followed by a Nickel His-tag affinity column with an imidazole gradient. rAPL fractions thus obtained are stable at 4°C in the presence of EDTA. However, no inhibitor activity of this rAPL towards trypsin was observed, nor did it form inhibition complex with trypsin. The presence of trace protease and/or failure to fold correctly may be preventing recovery of inhibitory activity. A screen of various refolding buffers failed to yield soluble, stable APL.

plasmin inhibitor

angiogenesis

serine protease - serpin complex

protein expression

fibrinolysis

protein refolding

Life Sciences

Altered protein and fatty acid composition of porcine follicular fluid due to a high fibre diet and the subsequent effects on oocyte maturation

Jarrett, Selene

January 2018

Background Ovarian follicular fluid serves as the microenvironment for a maturing oocyte prior to ovulation. Previous studies have shown that gilts fed a high fibre (HF) diet before ovulation have improved fertility compared to gilts fed a control (C) diet, including a higher proportion of metaphase II oocytes following in vitro maturation (IVM). Hypothesis The molecular composition of porcine follicular fluid (pFF) was altered by the diet and that these alterations conferred the fertility benefits. Aims The aim of this study was to compare the protein composition of pFF from pigs fed a control diet with pFF of pigs fed a high fibre diet, to identify whether a high fibre diet fed to pigs during their oestrous cycle altered the composition of pFF. Additionally, the pFF of fertile animals was compared with the pFF of non-fertile animals to identify whether pFF composition was associated with fertility; fertile animals produced an embryo following in vitro fertilisation (IVF). Differences in the molecular composition were to be used to ascertain the potential underlying mechanism(s) involved in dietary induced improvements to oocyte maturation. Results The protein composition of pooled pFF from 12 HF-pigs and 12 C-pigs was compared by liquid chromatography tandem mass spectrometry (LC-MS/MS). Additionally, within each dietary group, the composition of pooled pFF from pigs whose oocytes produced blastocysts following in vitro fertilisation (C-Bl and HF-Bl) was compared with pFF from pigs whose oocytes did not produce blastocysts (C-No and HF-No respectively; n=6 per group). These proteomic analyses identified differentially expressed proteins, associated with several canonical pathways including acute phase response signalling, complement system and LXR/RXR activation, as determined by Ingenuity Pathway Analysis. Quantitative western blots revealed the differential expression of candidates associated with these canonical pathways. Plasminogen expression was lower (P≤0.05) in pFF of HF-pigs compared to pFF of C-pigs. In pFF from C-Bl gilts, apolipoprotein A4 (P≤0.01) and apolipoprotein M (P≤0.05) expression were higher compared to pFF from C-No gilts. Plasmin expression was lower (P≤0.05) in pFF from HF-Bl gilts compared to pFF from C-Bl gilts. Due to the interest in the differentially expressed apolipoproteins (involved in cholesterol and lipid efflux), a targeted metabolomic analysis was carried out to measure the concentration of nine fatty acids (FAs) in pFF of individual pigs in C-No, C-Bl, HF-No, HF-Bl groups (n=6 per group); adrenic, arachadonic, arachidic, dihomo- γ-linolenic, docosapentaenoic, erucic, linoleic, palmitoleic and oleic acids were measured by LC-MS/MS. The analysis revealed the lower concentration of linoleic acid (LA, p≤0.05) and higher concentration of erucic acid (P≤0.05) in HF-pFF compared to C-pFF. Following the results of the targeted metabolomic analysis, cumulus-oocytecomplexes (COCs) were matured in TCM 199 medium supplemented with 0 (No-LA), 50, 100 or 200 μM LA for 44 hours (n = 320 per treatment). COC diameters were measured and the COCs were categorised into "full", "partial" or "no" expansion. COCs were denuded, fixed and stained to determine their stage of maturation. IVM with 200 μM LA resulted in the reduced diameter of COCs (p≤0.01), fewer COCs with full cumulus expansion (p≤0.05) and fewer metaphase II oocytes (p≤0.05). Discussion Plasminogen is the precursor to plasmin, a proteolytic enzyme involved in weakening the follicular wall prior to ovulation. The lower expression of plasminogen and plasmin in pFF of high fibre pigs implies a delay in the accumulation of the inflammatory proteins required for ovulation. The delay in ovulation can result in the lengthening of the oocyte maturation process, leading to more mature oocytes, as observed in the previous studies. A disruption in the expression of apolipoproteins may also occur in high fibre-fed pigs. The increase in apolipoproteins associated with blastocyst development was only observed with pFF of control pigs but not high fibre pigs. An alteration in lipid homeostasis in the high fibre pigs could potentially affect oocyte energy consumption. LA concentration was also lower in pFF of high fibre pigs. LA is an essential fatty acid, indicating that the difference in concentration is directly from the diet. The lower levels of LA can potentially be beneficial to oocyte maturation, which is substantiated by the negative effects of a high LA concentration on IVM of abattoir derived oocytes.