L3 Fraction Research Articles

Efficacy of maturase K and rpL20 protein extracted from C. procera leaves on Anophelesstephensi

The present work is carried out to protein isolation, purification, and characterization from leaves, stem, and seed of C. procera and to evaluate the larvicidal potential on Anopheles stephensi. The whole protein was isolated using protein extraction buffer and precipitated by ammonium sulphate and larvicidal active protein was purified by the column chromatography. The homogeneity of larvicidal protein was confirmed by the SDS-PAGE. The identification of protein was done by the HPLC and LC-MS/ESI-MS.The crude protein from leaves showed 100% mortality of 3rd instar larvae of An. stephensi at the concentration of 5.5 mg/ml after 24 h of exposure. The crude protein from stem showed 25% mortality and no mortality observed was observed in seed protein. The leaves crude protein was further purified by ion exchange chromatography and eluted fractions were tested for larvicidal potential. The purified single protein fractions L2 and L3 from C. procera leaves showed 100% mortality at concentration of 0.06 mg/ml. The homogeneity of purified protein was confirmed by SDS-PAGE and two bands of 26 kDa and 15 kDa protein were observed. The peptide sequence “R.SQMLENSFLIENVMKR.L” was identified in the trypsin digested homogenous protein fraction L2 and “R.DRGSQKR.N” peptide sequence in L3 fraction by LC-MS/ESI-MS. The CprL2 peptide showed the sequence similarity with the protein maturase K and CprL3 peptide showed the sequence similarity with ribosomal protein L20 of C. procera. The conserved functional domain was also identified in both the CprL2 and CprL3 peptide. The identified proteins showed strong larvicidal efficacy at very low concentration. The identified proteins are novel and natural larvicidal agents against An. stephensi and hence can be used to control the malaria.

Biphenotypic hepatic tumors: imaging findings and review of literature.

To describe imaging findings in biphenotypic hepatic tumors (BPT) and a proposal for new imaging classification based on contrast-enhanced imaging. Retrospective review of CT, MRI, PET/CT, and ultrasound findings in 39 patients with histologically confirmed BPT was performed. Tumor markers including AFP, L3 fraction, CA 19.9, CA 125, and CEA were recorded. Based on the dynamic enhancement features, BPT were categorized into 4 enhancement patterns (Types 1-4). Enhancement patterns were correlated with other imaging findings and tumor markers. Imaging features and tumor markers that were not consistent with diagnosis of hepatocellular carcinoma or intrahepatic cholangiocarcinoma based on enhancement pattern were considered discordant findings. Enhancement patterns in 29 patients (CT/MR) included 23 Type 2 (continuous peripheral rim of late arterial hyperenhancement with washout or fade in portal venous and/or delayed phases, ±delayed central enhancement) and 2 of each Types 1, 2, and 3. Discordant imaging findings were present in two patients with Type 2 pattern and in one patient with Type 1 pattern. Both AFP and CA 19.9 were elevated in 15 of 33 of patients. Tumor markers AFP and CA 19.9 were discordant in 17 of 21 patients with Type 2 pattern, two of two patients with Type 3 pattern. Most BPTs were markedly PET avid with average SUV max of 8.2. Most frequent ultrasound appearance is peripheral hypoechogenicity and central hyperechogenicity. BPT most commonly present with imaging features similar to cholangiocarcinoma or metastases. BPT can be suggested when imaging findings or tumor markers are discordant with the most likely diagnosis based on enhancement pattern.

Des‐gamma‐carboxy prothrombin identified by P‐11 and P‐16 antibodies reflects prognosis for patients with hepatocellular carcinoma

Serum des-γ-carboxy prothrombin (DCP) is an established tumor marker in patients with hepatocellular carcinoma (HCC), which can be identified by using MU-3 antibody. The MU-3 antibody mainly reacts with the 9-10 glutamic acid residues of DCP (conventional DCP). Since other variants of DCP with fewer glutamic acid residues can be detected using P-11 and P-16 antibodies (code name: NX-PVKA), we examined the clinical characteristics associated with NX-PVKA, and whether NX-PVKA is a useful measure in HCC patients. Participants comprised 197 HCC patients admitted to our hospital between 2001 and 2010. NX-PVKA, conventional DCP, alpha-fetoprotein, and L3 fraction of alpha-fetoprotein were measured prior to initiation of HCC treatment. Of the tumor markers assessed, NX-PVKA was the only significant predictor of prognosis (hazard ratio, 81.32; P < 0.0001). Patients with NX-PVKA level ≥ 100 mAU/mL showed significantly lower survival rates (P < 0.0001). NX-PVKA level was also significantly associated with platelet count, prothrombin time, C-reactive protein, sex, maximum tumor size, number of nodules, and portal venous invasion by HCC. Finally, using NX-PVKA level and other clinical parameters, we established a prognostic model to estimate patient survival time. NX-PVKA offers the best marker of tumor prognosis among HCC patients, and is strongly associated with tumor factors and hepatic functional reserve. NX-PVKA could be useful for clinical evaluation of tumor severity, as well as the estimated duration of survival among patients with HCC.

Chemically-blocked Antibody Microarray for Multiplexed High-throughput Profiling of Specific Protein Glycosylation in Complex Samples

In this study, we describe an effective protocol for use in a multiplexed high-throughput antibody microarray with glycan binding protein detection that allows for the glycosylation profiling of specific proteins. Glycosylation of proteins is the most prevalent post-translational modification found on proteins, and leads diversified modifications of the physical, chemical, and biological properties of proteins. Because the glycosylation machinery is particularly susceptible to disease progression and malignant transformation, aberrant glycosylation has been recognized as early detection biomarkers for cancer and other diseases. However, current methods to study protein glycosylation typically are too complicated or expensive for use in most normal laboratory or clinical settings and a more practical method to study protein glycosylation is needed. The new protocol described in this study makes use of a chemically blocked antibody microarray with glycan-binding protein (GBP) detection and significantly reduces the time, cost, and lab equipment requirements needed to study protein glycosylation. In this method, multiple immobilized glycoprotein-specific antibodies are printed directly onto the microarray slides and the N-glycans on the antibodies are blocked. The blocked, immobilized glycoprotein-specific antibodies are able to capture and isolate glycoproteins from a complex sample that is applied directly onto the microarray slides. Glycan detection then can be performed by the application of biotinylated lectins and other GBPs to the microarray slide, while binding levels can be determined using Dylight 549-Streptavidin. Through the use of an antibody panel and probing with multiple biotinylated lectins, this method allows for an effective glycosylation profile of the different proteins found in a given human or animal sample to be developed. Introduction Glycosylation of protein, which is the most ubiquitous post-translational modification on proteins, modifies the physical, chemical, and biological properties of a protein, and plays a fundamental role in various biological processes1-6. Because the glycosylation machinery is particularly susceptible to disease progression and malignant transformation, aberrant glycosylation has been recognized as early detection biomarkers for cancer and other diseases 7-12. In fact, most current cancer biomarkers, such as the L3 fraction of α-1 fetoprotein (AFP) for hepatocellular carcinoma 13-15, and CA199 for pancreatic cancer 16, 17 are all aberrant glycan moieties on glycoproteins. However, methods to study protein glycosylation have been complicated, and not suitable for routine laboratory and clinical settings. Chen et al. has recently invented a chemically blocked antibody microarray with a glycan-binding protein (GBP) detection method for high-throughput and multiplexed profile glycosylation of native glycoproteins in a complex sample 18. In this affinity based microarray method, multiple immobilized glycoprotein-specific antibodies capture and isolate glycoproteins from the complex mixture directly on the microarray slide, and the glycans on each individual captured protein are measured by GBPs. Because all normal antibodies contain N-glycans which could be recognized by most GBPs, the critical step of this method is to chemically block the glycans on the antibodies from binding to GBP. In the procedure, the cis-diol groups of the glycans on the antibodies were first oxidized to aldehyde groups by using NaIO4 in sodium acetate buffer avoiding light. The aldehyde groups were then conjugated to the hydrazide group of a cross-linker, 4-(4-N-MaleimidoPhenyl)butyric acid Hydrazide HCl (MPBH), followed by the conjugation of a dipeptide, Cys-Gly, to the maleimide group of the MPBH. Thus, the cis-diol groups on glycans of antibodies were converted into bulky none hydroxyl groups, which hindered the lectins and other GBPs bindings to the capture antibodies. This blocking procedure makes the GBPs and lectins bind only to the glycans of captured proteins. After this chemically blocking, serum samples were incubated with the antibody microarray, followed by the glycans detection by using different biotinylated lectins and GBPs, and visualized with Cy3-streptavidin. The parallel use of an antibody panel and multiple lectin probing provides discrete glycosylation profiles of multiple proteins in a given sample 18-20. This method has been used successfully in multiple different labs 1, 7, 13, 19-31. However, stability of MPBH and Cys-Gly, complicated and extended procedure in this method affect the reproducibility, effectiveness and efficiency of the method. In this new protocol, we replaced both MPBH and Cys-Gly with one much more stable reagent glutamic acid hydrazide (Glu-hydrazide), which significantly improved the reproducibility of the method, simplified and shorten the whole procedure so that the it can be completed within one working day. In this new protocol, we describe the detailed procedure of the protocol which can be readily adopted by normal labs for routine protein glycosylation study and techniques which are necessary to obtain reproducible and repeatable results.

W1791 Treatment Response Evaluated By Des-Gamma-Carboxy Prothrombin and Alpha-Fetoprotein L3 Fraction Can Predict Prognosis of Hepatocellular Carcinoma Independently of Radiological Evaluation

W1791 Treatment Response Evaluated By Des-Gamma-Carboxy Prothrombin and Alpha-Fetoprotein L3 Fraction Can Predict Prognosis of Hepatocellular Carcinoma Independently of Radiological Evaluation

Diagnostic Value of Lectin Reactive Alpha-fetoprotein for Neoinfantile Hepatic Tumors and Malignant Germ Cell Tumors

The serum alpha-fetoprotein (AFP) level has been used as a tumor marker for hepatoblastoma, and malignant germ cell tumors in pediatric patients. The AFP has 3 isoforms (L1, L2, L3), and the usefulness of the L3 fraction as a diagnostic marker for the adult hepatocellular carcinoma is well known. However, there are few reports dealing with various pediatric malignant tumors. In the current study, we analyzed the diagnostic value of AFP fractions for pediatric diseases, in particular, those occurring in the neoinfantile period. From 2003 to 2006, two cases of hepatoblastoma, and 5 cases of germ cell tumor, all of which were neoinfantile, were treated in our department. In our analytical system (LiBASys), the level of the L3 fraction contains the majority of the L2 fraction. The total AFP (ng/mL) level and the L3 fraction (%) were measured to assess the usefulness of the L3 fraction as a diagnostic marker. In all cases of hepatoblastoma and yolk sac tumor, both the total AFP and the L3 fraction were high, either before treatment or in the presence of malignant tumors. Most of the cases of neonatal immature teratoma showed a high total AFP level during the neoinfantile period, however, the L3 fraction was around 10%, and decreased after surgical treatment. Only 1 case of the immature teratoma demonstrated malignant transformation, when the patient was 8 months old. As the total AFP and the AFP-L3 fraction were proportionally elevated, the patient was treated with additional surgical resection and chemotherapy. In the case of neonatal mature teratoma, the L3 fraction was below 0.5%, even when the total AFP level was high. Our results indicated that the level of the L3 fraction accurately confirmed the existence, or the malignant potential of hepatic tumor or germ cell tumor. The L3 fraction is useful as a tumor marker during the neoinfantile period.

Pelioid‐type hepatocellular carcinoma with numerous eosinophilic infiltrations in a patient with primary biliary cirrhosis

A 65-year-old woman with liver injury was referred to our hospital in 1992. She was diagnosed with primary biliary cirrhosis (PBC) of Scheuer's histological classification stage IV. She was treated with 600 mg/day of ursodeoxycholic acid. A 1-cm mass in S7 was detected in August 1995. The serum alpha-fetoprotein (AFP) level increased to 1288 ng/mL in January 1996. Angiography showed a cotton wool-like appearance in the delayed phase. Because the size of the tumor appeared to be increasing and the serum AFP levels increased with high levels of L3 fraction, a pelioid-type hepatocellular carcinoma (HCC) was strongly suspected. Hepatic artery infusion with SMANCS and partial resection of S7 and S8 of the liver were performed in March 1996. The pathological diagnosis for theresected liver tumor was pelioid-type HCC. The serum AFP level decreased to 50 ng/mL after the operation, but relapsed HCC was detected in S6 and S7. Angiography in September 1996 revealed multiple hypervascular lesions, and hepatic artery infusion with SMANCS was again performed; however, we were unable to suppress the progression of the relapsed HCC. The patient died due to an intra-abdominal rupture of relapsed HCC and subsequent liver failure in December 1996. We report a rare case of pelioid-type HCC with numerous eosinophilic infiltrations arising from PBC.

Fucosylated fraction of alpha‐fetoprotein, L3, as a useful prognostic factor in patients with hepatocellular carcinoma with special reference to low concentrations of serum alpha‐fetoprotein

The aim of the present study was to establish L3 fraction before initial treatment as a useful prognostic factor in a prospective fashion in hepatocellular carcinoma (HCC) where the alpha-fetoprotein (AFP) was very low. From 1990 to 2004, 298 HCC patients in whom L3 could be measured were examined in the present study. Enrolled patients with HCC underwent operation, transcatheter arterial chemoembolization and percutaneous ablation therapy. The current patient status was confirmed as of the end of March 2005. L3 was determined by crossed immuno-affinoelectrophoresis when AFP was >/=30 ng/mL. It was carried out by liquid-phase binding assay system on cases where AFP < 30 ng/mL. The tentative discriminating line of L3 was set at 15%. The HCC group included four subgroups: 110 patients with AFP concentrations </=100 ng/mL, 70 with AFP</= 50 ng/mL, 38 with AFP </= 30 ng/mL and 29 with AFP </= 25 ng/mL. The mean survival rate in the HCC group, whose L3 was >15% (high L3), was significantly lower than that in the HCC group whose L3 was </=15% (low L3). There were also statistically significant differences in survival rates between high and low L3 in the four HCC subgroups. The statistically significant differences were more distinct in the subgroups with low AFP concentrations. The present study indicates that the L3 fraction before treatment serves as a useful prognostic indicator when the serum concentrations of AFP were very low.

Ifc

Our previous results showed that the fucosylation index (FI) was considered to be a useful prognostic factor in patients with hepatocellular carcinoma (HCC). On the other hand, serum concentrations of α-fetoprotein (AFP) and des-γ-carboxy prothrombin (DCP) were regarded as prognostic indicators. However, the relationship among FI, AFP, and DCP as prognostic factors remained unknown. The aim of this study was to elucidate the correlation among these three prognostic factors. One hundred and seventy-six patients with HCC from 1990 to 1998, who showed increment of serum AFP concentrations more than 30 ng/ml before treatment, were examined in the present study. FI was determined in these patients by crossed immunoaffino-electrophoresis in the presence of Lens culinaris agglutinin. FI of AFP was defined as the percentage of the L. culinaris agglutinin (LCA)-reactive species in total AFP (same as L3 fraction). Serum concentrations of DCP were also measured. Enrolled patients with HCC underwent transcatheter arterial embolization, chemoembolization, percutaneous ethanol injection, and/or percutaneous microwave coagulation therapy. The current patients status was the one which was confirmed at the end of March 2001. Analysis by the Cox’s proportional hazards model showed that FI, AFP, and DCP were significant prognostic factors. When the tentative demarcation levels of FI, AFP, and DCP were set at 18%, 200 ng/ml, and 0.06 arbitrary units (AU)/ml, respectively, the following results for the prognostication of patients with HCC were obtained. First, the survival rates in the groups with one out of the three optional markers over the demarcation level were significantly lower than the survival rates of other groups, whose optional one marker was equal to or less than the demarcation level, respectively. Next, the survival rates in the groups in which two out of three optional markers were over the demarcation levels were lower than the survival rates of other groups, whose optional two markers were equal to or less than the demarcation levels, with high significance. On the contrary, there was absence or attenuation of statistically significant differences in the survival rates between the groups in which two of the three optional markers showed no accordant results (high FI and low AFP versus low FI and high AFP, low FI and high DCP versus high FI and low DCP, high DCP and low AFP versus low DCP and high AFP). Finally, we compared the survival rates between the HCC groups, whose optional one marker was over the demarcation level and whose remainders were equal to or less than the demarcation levels and another HCC group whose optional one marker was equal to or less than the demarcation level and whose remainders were over the demarcation levels to reconfirm the weight of each prognostic factor. These comparisons together with Cox’s analysis showed that the weight of each prognostic factor in the survival rates is consecutively ordered as DCP, FI, and AFP. The present study indicates that measurements of FI, AFP, and DCP from the sera before the initial treatment improve prognostic estimates and appraisal of the therapeutic outcome in patients with HCC.

Studies on the correlation among the fucosylation index, concentration of α-fetoprotein and des-γ-carboxy prothrombin as prognostic indicators in hepatocellular carcinoma

Our previous results showed that the fucosylation index (FI) was considered to be a useful prognostic factor in patients with hepatocellular carcinoma (HCC). On the other hand, serum concentrations of α-fetoprotein (AFP) and des-γ-carboxy prothrombin (DCP) were regarded as prognostic indicators. However, the relationship among FI, AFP, and DCP as prognostic factors remained unknown. The aim of this study was to elucidate the correlation among these three prognostic factors. One hundred and seventy-six patients with HCC from 1990 to 1998, who showed increment of serum AFP concentrations more than 30 ng/ml before treatment, were examined in the present study. FI was determined in these patients by crossed immunoaffino-electrophoresis in the presence of Lens culinaris agglutinin. FI of AFP was defined as the percentage of the L. culinaris agglutinin (LCA)-reactive species in total AFP (same as L3 fraction). Serum concentrations of DCP were also measured. Enrolled patients with HCC underwent transcatheter arterial embolization, chemoembolization, percutaneous ethanol injection, and/or percutaneous microwave coagulation therapy. The current patients status was the one which was confirmed at the end of March 2001. Analysis by the Cox’s proportional hazards model showed that FI, AFP, and DCP were significant prognostic factors. When the tentative demarcation levels of FI, AFP, and DCP were set at 18%, 200 ng/ml, and 0.06 arbitrary units (AU)/ml, respectively, the following results for the prognostication of patients with HCC were obtained. First, the survival rates in the groups with one out of the three optional markers over the demarcation level were significantly lower than the survival rates of other groups, whose optional one marker was equal to or less than the demarcation level, respectively. Next, the survival rates in the groups in which two out of three optional markers were over the demarcation levels were lower than the survival rates of other groups, whose optional two markers were equal to or less than the demarcation levels, with high significance. On the contrary, there was absence or attenuation of statistically significant differences in the survival rates between the groups in which two of the three optional markers showed no accordant results (high FI and low AFP versus low FI and high AFP, low FI and high DCP versus high FI and low DCP, high DCP and low AFP versus low DCP and high AFP). Finally, we compared the survival rates between the HCC groups, whose optional one marker was over the demarcation level and whose remainders were equal to or less than the demarcation levels and another HCC group whose optional one marker was equal to or less than the demarcation level and whose remainders were over the demarcation levels to reconfirm the weight of each prognostic factor. These comparisons together with Cox’s analysis showed that the weight of each prognostic factor in the survival rates is consecutively ordered as DCP, FI, and AFP. The present study indicates that measurements of FI, AFP, and DCP from the sera before the initial treatment improve prognostic estimates and appraisal of the therapeutic outcome in patients with HCC.

The Enzymatic Basis for the Conversion of Nonfucosylated to Fucosylated α-Fetoprotein by Acyclic Retinoid Treatment in Human Hepatoma Cells: Activation of α1-6 Fucosyltransferase

The purpose of the present study was to investigate the mechanism by which nonfucosylated α-fetoprotein (AFP) is converted to fucosylated AFP in human hepatoma cell lines exposed to acyclic retinoid (AR), an effective drug for the secondary prevention of hepatocellular carcinoma. AR treatment (100 µM) of HepG2 and Hep3B cells significantly increased the activity and mRNA levels of α1-6 fucosyltransferase (α1-6 FucT), the enzyme responsible for the fucosylation of AFP, leading to an increase in fucosylated glycoproteins as evidenced by lectin binding measurements. Lectin immunoelectrophoresis of AFP obtained from culture media indicated that the relative percentage of nonfucosylated AFP (L1 fraction) was decreased and α1-6 fucosylated AFP (L3 fraction) was increased in these hepatoma cell lines after treatment with AR. The total AFP levels were, however, markedly suppressed by AR treatment, and therefore the absolute L3 fraction on the basis of the total AFP present was extremely low. These results demonstrate that AR enhances the conversion of the L1 to the L3 fraction due to the activation of α1-6 FucT in human hepatoma cell lines despite clinical outcome with AR treatment and the L3 fraction of AFP. Even though the dramatic decrease in AFP is the limiting factor in the synthesis of the L3 fraction and, therefore, the absolute value of fucosylated AFP is extremely low, the conversion from L1 to L3 as judged by lectin immunoelectrophoresis represents a good marker for the progress of AR treatment.

The fucosylation index of serum α-fetoprotein as useful prognostic factor in patients with hepatocellular carcinoma in special reference to chronological changes

Aim of this study was to establish fucosylation index (FI) of α-fetoprotein (AFP) before and after initial treatment as a useful prognostic factor in patients with hepatocellular carcinoma (HCC). One hundred ninety-seven patients with HCC from 1990 to 2000, in whom an increment of serum AFP concentrations more than 30 ng/ml was observed before treatment, were examined in the present study. Enrolled patients with HCC underwent transcatheter arterial embolization, chemoembolization, percutaneous ethanol injection and/or percutaneous microwave coagulation therapy. The current patients status was confirmed as of the end of March 2001. FI was determined by crossed immunoaffinoelectrophoresis in the presence of Lens culinaris agglutinin (LCA). FI of AFP was defined as the percentage of the LCA-reactive species in total AFP (same as L3 fraction). When the tentative discriminating line of FI was set at 18%, the mean survival rate in the HCC group, whose FI-1 (before treatment) was higher than 18% (high FI), was significantly lower than that in another HCC group, whose FI-1 was equal to or less than 18% (low FI) by the generalized Wilcoxon test and the log rank test ( P<0.0001). There were statistical significant differences of survival rate when FI-2 (2 months after treatment) and FI-3 (at the time of HCC recurrence or 2 years after treatment in the case of no recurrence) were introduced in the same analysis. Additionally, statistical significant differences of survival rates were obtained between HCC groups with high and low FI-1 when the patient stage was limited to II, III, IVA or IVB. The HCC group, FI-1, FI-2 and FI-3 of which were persistently equal to or less than 18%, showed considerably better prognosis than the group, whose FI-1, FI-2 and FI-3 were persistently higher than 18%. The univariate analysis in the prognostic factor by the Cox's proportional hazards model showed that FI-1, FI-2 and FI-3 were independent prognostic factors. The present study indicates that measuring FI from the sera before and after the treatment serves as a new prognostic indicator and may improve prognostic estimates and appraisal of therapeutic outcome in patients with HCC.

Tumor Markers in Early Diagnosis, Follow-Up and Management of Patients with Hepatocellular Carcinoma

The mainstay for the diagnosis for hepatocellular carcinoma (HCC) includes serological tumor markers, such as alpha-fetoprotein, the L3 fraction thereof and PIVKA-II, in addition to imaging modalities. They do not correlate, but complement each other. Hence, a combination of them designed on the basis of their characteristics needs to be worked out. First, it is necessary to identify the patients at high risk for developing HCC, such as those with chronic hepatitis or liver cirrhosis, and in the follow-up conduct regular check-ups for serological tumor markers. Those testing positive for any marker are at the highest risk for developing HCC, even when imaging fails to disclose any space-occupying lesions. Following high-risk patients for serological tumor markers, in concert with imaging, makes accurate evaluation of the efficacy of therapies for HCC possible. Since serological tumor markers can signal the development of HCC earlier than any other laboratory tests, they offer excellent means of identifying relapsing HCC. Equally important in the management of patients with HCC are biological indicators for malignancy, the selection of therapeutic interventions and the prediction of the outcome.

Isolation of Ovulation-inducing Factors in the Seminal Plasma of Bactrian Camel (Camelus bactrianus) by DEAE-cellulose Chromatography

Ovulation in the Bactrian camel (Camelus bactrianus) depends upon the ovulation-inducing factor in the seminal plasma; however, little research has been conducted to isolate and identify the factor. The current study attempts to isolate and identify the bioactive fractions from the seminal plasma of Bactrian camel. The seminal plasma was fractionated by diethylamino-ethylcellulose (DEAE)-cellulose chromatography and five protein fractions were obtained. The bioactive of each fraction was estimated by rat pituitary tissue culture in vitro and by the intramuscular injection of the bioactive fraction to the female camels in vivo. The concentrations of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in the pituitary culture media before and 6 h after the addition of each fraction and in the peripheral blood plasma collected from the camel immediately before and hourly after the injection of the active fraction were measured by radioimmunoassay. The results demonstrated that the third fraction (L3) had the bioactive potential to stimulate the release of LH in vitro from 11.82 +/- 1.77 to 25.63 +/- 3.84 mIU/ml after the addition of L3 to the culture media. The in vivo concentrations of LH in the blood plasma of the camel increased from 6.43 +/- 0.14 before to 15.50 +/- 2.64 ng/ml 6 h after injection of L3. However, the concentrations of FSH did not show any significant changes either in vitro or in vivo. The results clearly demonstrated the existence of LH-releasing associated fractions in the seminal plasma that appears to be separated by DEAE-cellulose matrix and the isolated L3 fraction might be the ovulation-inducing factor or one of its components.