Immunomodulatory effect of thymopentin on lymphocytes from supramammary lymph nodes of dairy cows.

Previous study showed that injection of thymopentin (TP 5) in the area of supramammary lymph nodes (SMLN) had therapeutic effect on the intramammary infection (IMI) in cows. This study was to explore the underlying mechanisms by investigating the immunomodulatory effect of TP 5 on SMLN lymphocytes. Lymphocyte proliferation, cell cycle distribution and cytokine mRNA expression were determined by MTT, FCM and RT-qPCR, respectively. Laser scanning confocal microscope (LSCM) was used to observe the binding between TP 5 and SMLN lymphocytes. Moreover, RNA-sequencing (RNA-seq) was performed to observe the difference between the lymphocytes with and without TP 5 treatment. The results showed that TP 5 significantly promoted lymphocyte proliferation, accelerated cell cycle progression, and enhanced mRNA expression of IL-17A and IL-17F. Laser scanning confocal microscopic analysis revealed the binding of TP 5 to the surface of SMLN lymphocytes. A total of 1094 genes were identified as differentially expressed genes (DEGs) using RNA-seq with 692 up- and 402 down-regulated genes. 48 significantly enriched GO terms were identified by RNA-seq. In KEGG analysis, 1/3 of DEGs were enriched in the immune system pathway, including IL-17 signaling pathway, cytokine-cytokine receptor interaction, Th1 and Th2 cell differentiation, T cell receptor signaling pathway, Th17 cell differentiation. Among them, IL-17 signaling pathway was the most prominent. This study suggested that the therapeutic benefit of TP 5 in the treatment of bovine mastitis might be attributed to its immunomodulatory activity in SMLN lymphocytes.

Novel strategy for immunomodulation: Dissolving microneedle array encapsulating thymopentin fabricated by modified two-step molding technology.

Thymopentin (TP5) is commonly used in the treatment for autoimmune diseases, with a short plasma half-life (30s) and a long treatment period (7 days to 6 months). It is usually administrated by syringe injection, resulting in compromised patient compliance. Dissolving microneedle array (DMNA) offers a superior approach for transdermal delivery of biological macromolecules, as it allows painless penetration through the stratum corneum and generates minimal biohazardous waste after dissolving in the skin. Despite recent advances in DMNA as a novel approach for transdermal drug delivery, problem of insufficient mechanical strength remains to be solved. In this study, TP5-loaded DMNA (TP5-DMNA) was uniquely developed using a modified two-step molding technology. The higher mechanical strength was furnished by employing bovine serum albumin (BSA) as a co-material to fabricate the needles. The obtained TP5-DMNA containing BSA displayed better skin penetration and higher drug loading efficiency than that without BSA. The in vivo pharmacodynamics study demonstrated that TP5-DMNA had comparative effect on immunomodulation to intravenous injection of TP5, in terms of ameliorating the CD4+/CD8+ ratio, SOD activity and MDA value to the basal level. Only mild irritation was observed at the site of administration. These results suggest that the novel TP5-DMNA utilizing BSA provides an alternative approach for convenient and safe transdermal delivery of TP5, which is a promising administration strategy for future clinical application.

A 6-year treatment experience for pemphigus: retrospective study of 69 Chinese patients.

There is a lack of data on treatment and prognosis of pemphigus in China. The aim of this study was to evaluate long-term follow-up and prognosis of pemphigus. Forty-seven inpatients with pemphigus vulgaris (PV) and 22 with pemphigus foliaceus (PF) were recruited in this retrospective study. The average age at onset was 51.6 and 54.9 years in PV and PF, respectively. High-dose systemic steroids were administered in 47 PV and 21 PF, of which 18 PV and 8 PF with adjuvant therapies. CD4 lymphocytopenia was found in 5 PV and 2 PF patients at admission and successfully treated by intravenous thymopentin daily. During a mean follow-up of 37.1 months, 41 PV and 19 PF reached remission, 30 PV and 9 PF relapsed, 4 PV and 2 PF died. Major causes of death were relapse of pemphigus due to discontinuation of oral steroids by the patients themselves (four cases) and severe infections (two cases, one with severe CD4 lymphocytopenia). The 1-year mortality rate of PV and PF was 8.5% and 4.5%, respectively. Cox regression analysis indicated that age at onset of pemphigus was an independent risk factor related to the elevated mortality. Our report confirmed the high mortality rate of pemphigus in a Chinese population and stressed that patient education was urgently needed to prevent relapses and deaths.

Subcutaneous injection of thymopentin in the area of the supramammary lymph node to reduce milk somatic cell count in subclinically mastitic cows.

The objective of this study was to evaluate the therapeutic effects of thymopentin (TP-5) injections on subclinical intramammary infection (IMI) in lactating cows. In Experiment I, 40 cows were randomly divided into four groups. The cows in groups 1, 2, and 3 received subcutaneous injections of TP-5 in the region of the supramammary lymph node at doses of 1, 2, and 4 mg, respectively, for 3 days. In Experiment II, 20 cows were randomly divided into two groups. The cows in group 1 were treated with injections of TP-5 (4 mg) for 3 days in the same area as in Experiment I. Group 4 in Experiment I and group 2 in Experiment II were not treated and served as control groups. Milk samples were collected before and after treatment for bacteriological examination and analysis of the somatic cell count and level of N-acetyl-ß-d-glucosaminidase (NAGase). The results showed that treatment with TP-5 significantly reduced the somatic cell count (SCC) and NAGase activity of the milk and numerically reduced IMI. A dose of 4 mg was found to be optimal for the reduction of SCC and NAGase in milk. Therefore, further study of the use of TP-5 in the treatment of bovine mastitis is warranted.

A novel accelerated in vitro release method to evaluate the release of thymopentin from PLGA microspheres.

A novel accelerated method of good correlations with "real-time" release to evaluate in vitro thymopentin release from poly (D, L-lactide-co-glycolide) (PLGA) microsphere was developed. Thymopentin-loaded microspheres were made from three types of PLGA, and peptide release was studied in various conditions. Incomplete release of peptide (<60%) from microspheres was found in accelerated testing with two typical release media. This problem was circumvented by adding organic solvents to the release media and varying the temperature in the media heating process. Release media containing three kinds of organic solvents at 50 °C were tested, respectively, and hydro-alcoholic solution was selected for further study. After the surfactant concentration (0.06%, W/V) and ethanol concentration (20%, V/V) were fixed, a gradient heating program, consisting of three stages and each stage with a different temperature, was introduced to enhance the correlations between the short- and long-term release. After adjusting the heating time of each stage, a good correlation (R(2) = 9896, formulation 8 K; R(2) = 0.9898, formulation 13 K; R(2) = 0.9886, formulation 28 K) between accelerated and "real-time" release was obtained. By optimizing the conditions as ethanol concentration and temperature gradients, this accelerated method may be appropriate for similar peptide formulations that not well correlate with "real-time" release.

Vesicular phospholipid gels using low concentrations of phospholipids for the sustained release of thymopentin: pharmacokinetics and pharmacodynamics.

Vesicular phospholipid gels (VPGs) with high concentrations of phospholipids are used as implantable depots for sustained release of drugs due to high viscosity. This study aimed to investigate VPGs with low concentrations of phospholipids for subcutaneous injection and sustained release in vivo. A small peptide, thymopentin, was selected and incorporated into various VPG formulations. The VPG viscosity was greatly increased with higher concentrations of phospholipids (E80) and thus VPGs based on low lipid contents are more suitable for injection. Additionally, VPGs loaded with 5-hydroxy-fluorescein-thymopetin (5-FAM-TP5-VPGs) were developed and their pharmacokinetic profile was investigated in vivo. After subcutaneous injection, the release time of 5-FAM-TP5 was 216 h for 5-FAM-TP5-VPGs (containing 300 mg/g lipid), which was much longer than that of 5-FAM-TP5 solution. The therapeutic efficacy of TP5-VPGs (containing 300 mg/g lipid) after subcutaneous administration once a week was demonstrated to be comparable to that of TP5 solution injected subcutaneously once daily for 7 days. In conclusion, TP5-VPGs with low lipid content (300 mg/g) displayed sustained release properties in vivo that may serve as a sustained delivery system for subcutaneous injection.

Effect of immune modulation therapy on cardiac function and T-bet/GATA-3 gene expression in aging male patients with chronic cardiac insufficiency.

AIM: The aim of this study was to explore the role of immune modulation therapy in regulating the imbalance of Th1/Th2, serum IFN-γ, IL-4 and the T-cell-specific transcription factors T-bet/GATA-3 in peripheral blood in aging male patients with chronic cardiac insufficiency (CCI). PATIENTS & METHODS: In total, 156 participants were divided into three groups: the CCI intervention group, which received regular therapy and thymopetidum (20 mg intramuscular injection, once every other day for 3 months; n = 70), the CCI control group, which received regular therapy (n = 56) and 50 healthy individuals older than 57 years of age, who served as normal controls. RESULTS: Before therapy, in comparison with the control group, levels of left ventricular end diastolic diameter, NT-proBNP, C-reactive protein (CRP), Th1, Th1/Th2, IFN-γ, and T-bet mRNA and T-bet/GATA-3 mRNA all increased, and the level of left ventricular ejection fraction (LVEF), 6MWT, Th2, IL-4, and GATA-3 mRNA also decreased in both the CCI intervention and control groups. Linear correlation analysis indicated that LVEF was inversely correlated with serum NT-proBNP, CRP, Th1/Th2, IFN-γ and T-bet mRNA/GATA-3 mRNA, and was positively correlated with plasma IL-4. After 3 months of therapy, levels of left ventricular end diastolic diameter, NT-proBNP, CRP, Th1, Th1/Th2, IFN-γ, T-bet mRNA and T-bet/GATA-3 mRNA decreased in the two CCI subgroups, but levels in the CCI intervention group were lower in comparison to the control group. Levels of LVEF, 6MWT, Th2 and GATA-3 mRNA increased in the two CCI subgroups, while levels in the CCI intervention group were higher in comparison with the control group. Plasma levels of IL-4 showed no change after treatment. CONCLUSION: Immune modulation improved cardiac function of CCI patients and was associated with amelioration of T-helper superficial transcription factor polarization and its related cytokine imbalance. Immune modulation might be a new treatment strategy for aging CCI patients.

Multivesicular liposomes for the sustained release of thymopentin: stability, pharmacokinetics and pharmacodynamics.

The objective of the present study was to investigate the storage stability of thymopentin multivesicular liposomes (TP5-MVLs) prepared with different emulsifiers, and to study the pharmacokinetics and pharmacodynamics of the produced TP5-MVLs in vivo. The stability studies of TP5-MVLs indicated that MVLs particles prepared with mixed emulsifiers (Myrj52:solutolHS15 = 2:3) were stable at the storage temperature of 4 +/- 2 degrees C within 3 months. In addition, FITC-TP5-loaded MVLs was prepared for pharmacokinetic studies that after subcutaneous administration, the fluorescence signal lasted for about 5 days in plasma demonstrating that the rate of drug release from MVLs was very slow. The pharmacodynamic studies indicated that the therapeutic efficacy of TP5-MVLs after subcutaneous administration once every four days was the same as free TP5 solution after intravenous or subcutaneous administration once daily. In conclusion, MVLs, which possessed great storage stability, can be utilized to reduce the administration frequency of TP5, and therefore, served as a promising sustained release delivery system for polypeptide.

Stability and aerosolization of pressurized metered dose inhalers containing thymopentin nanoparticles produced using a bottom-up process.

The objective of this study was to investigate the stability and aerosolization of pressurized metered dose inhalers (pMDIs) containing thymopentin nanoparticles. Thymopentin nanoparticles, fabricated by a bottom-up process, were suspended in hydrofluoroalkane (HFA) 134a together with cineole and/or n-heptane to produce pMDI formulations. The stability study of the pMDIs obtained was carried out at ambient temperature for 6 months. The amount of thymopentin and the aerosolization properties of pMDIs were determined using high-performance liquid chromatography (HPLC) and a twin-stage impinger (TSI), respectively. Based on the results, thymopentin nanoparticles were readily suspended in HFA 134a with the aid of cineole and/or n-heptane to form physically stable pMDI formulations, and more than 98% of the labeled amount of thymopentin and over 50% of the fine particle fraction (FPF) of the pMDIs were achieved. During storage, it was found that for all pMDIs more than 97% of the labeled amount of thymopentin and FPF greater than 47% were achieved. Moreover, the size of thymopentin nanoparticles in propellant containing cineole and n-heptane showed little change. It is, therefore, concluded that the pMDIs comprising thymopentin nanoparticles developed in this study were stable and suitable for inhalation therapy for systemic action.

An LC-MS/MS assay to determine plasma pharmacokinetics of cyclic thymic hexapeptide (cTP6) in rhesus monkeys.

A robust and simple method for absolute quantification of a novel bidirectional immunomodulatory drug candidate, cyclic thymic hexapeptide (cTP6), in rhesus monkey plasma was developed and validated by liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS). Plasma proteins were precipitated by adding four volumes of acetonitrile. Peptides in the supernatant were separated by liquid chromatography on an Agilent Zorbax Eclipse Plus-C18 chromatographic column with gradient elution using 0.1% formic acid in water (mobile phase A) and 0.1% formic acid in methanol (mobile phase B) at 0.2 mL/min. The analytes were identified by triple quadrupole mass spectrometry in positive ion-mode. The assay was linear over a concentration range of 10-5000 ng/mL for cTP6, with a lower limit of quantification (LLOQ) of 10 ng/mL. Intra- and inter-day precision of the assay at three concentrations were 1.51-7.70% with accuracy of 95.1-104.2%. The average recovery of cTP6 for three concentration levels was 59.6-64.0%. No significant matrix effect was observed. Peptide cTP6 was detected in plasma of live rhesus monkeys up to 6-8h after intra-muscular injection. The half-life was 2.24-2.95 h. The result revealed a nonlinear pharmacokinetic response to increasing doses of cTP6 (100, 200, 500 µg/kg). For the multiple dose study of cTP6, the drug did not accumulate during daily administration at 100 µg/kg for 7 consecutive days in rhesus monkeys.

Box-Behnken optimization design and enhanced oral bioavailability of thymopentin-loaded poly (butyl cyanoacrylate) nanoparticles.

This study was done to prepare thymopentin (TP5)-loaded poly (butyl cyanoacrylate) nanoparticles (TP5-PBCA-NPs) and evaluate thier efficacy for oral delivery. TP5-PBCA-NPs were prepared by emulsion polymerization, and the formulation was optimized based on Box-Behnken experimental design. The physico-chemical characteristics of TP5-PBCA-NPs were evaluated using transmission electron microscopy (TEM), malvern zetasizer, Fourier transform infra-red spectroscopy (FT-IR) and differential scanning calorimetry (DSC). The encapsulation efficiency, enzymatic degradation and release behavior of TP5-PBCA-NPs in various media were evaluated using a high-performance liquid chromatography (HPLC) method. The pharmacodynamic studies on oral administration of TP5-PBCA-NPs were performed in FACScan flow cytometry. An optimum formulation consisted of 0.7% poloxamer 188 (Pol), 0.6% dextran-70 (Dex), 0.1% sodium metabisulfite (Sm), 0.1% TP5 and 1% (v/v) n-butyl cyanoacrylate. The particle size and zeta potential of optimized TP5-PBCA-NPs was 212 nm and -22.6 mV respectively with 82.45% encapsulation efficiency. TP5 was entrapped inside the nanoparticles in molecular dispersion form. The release of TP5 from PBCA-NPs was pH dependent; the cumulative release percentage in 0.1 M HCI for 4 hours was less than 16% while it was more than 80% in pH6.8 PBS. The PBCA-NPs could efficiently protect TP5 from enzymatic degradation; the remained percentage of TP5 encapsulated in PBCA-NPs was 58.40% after incubated with trypsin in pH6.8 PBS for 4 h while it was only 32.29% for free drug. In the oral administration study in vivo, the lowered T-lymphocyte subsets values were significantly increased and the raised CD4+/CD8+ ratio was evidently reduced compared with that of TP5 solution (p < 0.05), and the improvement of bioavailability was dose-dependent. These results indicated that the PBCA nanoparticles may be a promising carrier for oral delivery of TP5.

The influence of lipid characteristics on the formation, in vitro release, and in vivo absorption of protein-loaded SLN prepared by the double emulsion process.

PURPOSE: To study the influence of lipid characteristics on the formation, in vitro release, and in vivo absorption of solid lipid nanoparticles (SLN) prepared by the double emulsion method. METHODS: Stearic acid (SA), octadecyl alcohol (OA), cetyl palmitate (CP), glyceryl monostearate (GM), glyceryl palmitostearate (GP), glyceryl tripalmitate (GT), and glyceryl behenate (GB) were selected as the representatives of different kinds of lipids, insulin and thymopentin (TP5) were selected as the model protein drugs. Before preparation, the contact angles between water and lipids were determined to investigate their hydrophobicity. The influence of lipid hydrophobicity or lipid solution viscosity on the preparation of primary emulsion, double emulsion, and SLN were studied by evaluating the particle size, state, and stability of the systems. CP-SLN, GT-SLN, and GP-SLN were selected to be loaded with insulin and TP5 for the in vitro release and in vivo absorption examination. After oral administration to diabetic rats, the pharmacological availability (PA) of insulin-CP-SLN, insulin-GP-SLN, and insulin-GT-SLN were determined. RESULTS: The hydrophobicity order of the lipids was GM

Preparation of gel-core-solid lipid nanoparticle: a novel way to improve the encapsulation of protein and peptide.

Using thymopentin and insulin as the model protein-drugs, novel Gel-Core-solid lipid nanoparticle (SLN) with the hydrogel core and lipid shell were prepared by double emulsion and thermal sensitive gel technology, with the intention to improve the entrapment efficiency. Pluronic F127 and Glyceryl palmitostearate were selected as hydrogel material and lipid material, respectively. The particle sizes and zeta-potential were characterized by dynamic light scattering and electrophoretic light scattering. Transmission electron microscopy (TEM) was employed to investigate the structure of this Gel-Core-SLN. The Gel-Core-SLN was successfully prepared and the particle size was 305.2 nm with zeta potential of -17.15 mV. Observations by TEM confirmed that most solidified hydrogel particles were dispersed in the central of Gel-Core-SLN as a form of single core, which effectively prevented the diffusion of proteins to the external water phase during preparation process. The entrapment efficiency of thymopentin-loaded Gel-Core-SLN and insulin-loaded Gel-Core-SLN were 61.97% and 57.36%, respectively. Both the two drug-loaded Gel-Core-SLNs showed relatively low burst release. The pharmacological availability of insulin-loaded Gel-Core-SLN was 6.02%. It was suggested that the Gel-Core-SLN could be a promising drug delivery system with the outstanding encapsulation efficiency, low burst release and relatively high pharmacological availability.

Inhalable microparticles as carriers for pulmonary delivery of thymopentin-loaded solid lipid nanoparticles.

PURPOSE: Microparticles containing solid lipid nanoparticles (SLNs) are receiving increased attention as carriers for the lung delivery of the SLNs. Thus, we aim to prepare the hybrid microparticles and thoroughly evaluate their feasibility for the pulmonary drug delivery. METHODS: The microparticles were prepared by co-spray-drying the thymopentin (TP5)-loaded SLNs with bulking agents. Thereafter, we systematically estimated the potential of the microparticles as the carriers for the pulmonary delivery of the SLNs, including the investigations of their characteristics, aerodynamic properties, pharmacokinetics and pharmacodynamics. RESULTS: The spherical and hollow microparticles presented a size of 4.1 +/- 0.1 microm and a low tap density of 0.175 +/- 0.02 g/cm(3). In addition, the microparticles showed a high aerosolization efficiency (emitted dose of 98.0% +/- 1.23% and respirable fraction of 51.07% +/- 1.21%). Furthermore, the SLNs could be easily recovered from the microparticles without essential changes on their characteristics and the drug release behavior. The pharmacokinetic and pharmacodynamic studies suggested that, compared to i.v. TP5 solution, the bioavailability and therapeutic efficacy of TP5 were remarkably strengthened after the pulmonary administration of the microparticles. CONCLUSIONS: Taken together, we believe the microparticles were suitable for inhalation and possessed an ample potential for the pulmonary delivery of the SLNs.

Characterization of a new inhalable thymopentin formulation.

The present work describes a new dry powder containing thymopentin (TP5) suitable for inhalation. A total of 21 dry powders were produced by co-spray drying TP5 with lactose or mannitol as a bulking agent, leucine as a dispersibility enhancer and poloxamer 188 as a drug stabilizer. Analyses by scanning electron microscopy, laser diffractometry, thermogravimetry, Twin Stage Impactor and HPLC were performed to characterize the manufactured powders. The results revealed that formulation compositions greatly influenced the physical characteristics of the powders, such as the angle of repose, tapped density, particle size and aerodynamic diameter which, in turn, affected their aerodynamic behavior. A higher loading of leucine in the formulations (>63% by dry weight) improved the aerosolization properties of the powders by producing aerodynamically lighter particles. The optimum formulation, which had a tapped density of 0.31 g/cm(3), an aerodynamic diameter of 1.9 microm and an in vitro deposition of 45%, was obtained by combining TP5/mannitol/leucine in the ratio of 10/18/72. In addition, it was interesting to find that poloxamer 188 had a significant impact on improving the powder flowability rather than stabilizing TP5. In conclusion, the chosen composition promises an enhanced aerosol performance for the new TP5 inhalation formulation, suitable for deep lung deposition.

Dry powder inhalations containing thymopentin and its immunomodulating effects in Wistar rats.

Thymopentin (TP5), a synthetic pentapeptide, has been used in clinic as a modulator for immunodeficiences through intramuscular administration. The purpose of this study was to design and evaluate dry powder inhalations (DPIs) for pulmonary delivery of TP5. Dry powder inhalations containing leucine (a dispersibility enhancer), mannitol, and lactose (bulking agents) were prepared by spray-drying from aqueous formulations. The formulation components on the aerosolisation characteristics of spray-dried powders were investigated through the use of various amount of leucine, lactose and mannitol. Following spray-drying, resultant powders were characterized using scanning electron microscopy, laser diffraction and tapped density measurements, and the aerosolisation performance was determined using Twin Stage Impinger. The immunosuppression Wistar rats model was constructed to evaluate the immunomodulating effects of TP5 DPIs in vivo. The results of T-lymphocyte subsets (CD3+, CD4+, CD8+, CD4+/CD8+ ratio) analyses suggest that TP5 DPIs have modulating effects. On an overall evaluation, TP5 pulmonary delivery DPIs may be feasible for the future clinical application.

[Preparation of sustained release multivesicular liposome for thymopentin and preliminary study on its pharmacokinetics in rats].

To optimize the formulation and preparation method of multivesicular liposome of thymopentin and to investigate its pharmacokinetics in rats, the multivesicular liposome of thymopentin was prepared by double emulsification method and the formulation was optimized by orthogonal design. The release characteristics of thymopentin from multivesicular liposome in PBS (pH 7.4) and in plasma were investigated. The multivesicular liposome of thymopentin labeled with fluorescein isothiocyanate was prepared by double emulsification method. Its pharmacokinetics was evaluated following intramuscular injection in rats. The optimal formulation of multivesicular liposome of thymopentin were formulated with 7.5% glucose in aqueous phase and 2.25 mol x L(-1) triolein, 2.68 mol x L(-1) DPPG and 16.96 mol x L(-1) DOPC in organic phase. The entrapment efficiency of the multivesicular liposome of thymopentin was above 85% and the mean particle size was about 22 microm. The in vitro release of thymopentin from multivesicular liposome in PBS (pH 7.4) and in plasma was found to be in a sustained manner. The release curves were fitted to Higuchi equation. The pharmacokinetics following intramuscular injection of the multivesicular liposome of thymopentin labeled with fluorescein isothiocyanate in rats showed that the peak concentration of thymopentin was lower and elimination of it was slower significantly than that of thymopentin labeled with fluorescein isothiocyanate solution in the same dose. The plasma concentration of thymopentin maintained above quantitative limitation at 120 h after administration of multivesicular liposome of thymopentin. The optimized formulation and preparation technology of multivesicular liposome of thymopentin with higher entrapment efficiency are feasible with good reproducibility. Multivesicular liposome of thymopentin showed significant sustained-release property following intramuscular injection in rats.

Preparation and evaluation of poly-butylcyanoacrylate nanoparticles for oral delivery of thymopentin.

Thymopentin (Tp5) was loaded in poly-butylcyanoacrylate (PBCA) nanoparticles (NP) in order to enhance the oral bioavailability of Tp5. PBCA-Tp5-NP was prepared by nanoprecipitation methods. Dialyzing membrane method was employed to examine the in vitro release of PBCA-Tp5-NP in PBS, and Tp5 samples in the release medium were detected by HPLC. The cell proliferation test ((3)H-thymidine) was conducted to verify the PBCA-Tp5-NP bioactivity in vitro. The pharmacodynamical studies were performed on preimmunoinhibited rats and in flow cytometer. The size and the entrapment efficiency of PBCA-Tp5-NP were 178 +/- 39 nm and 92.21 +/- 1.08%, respectively. In vitro release data show that less than 60% Tp5 was released from lyophilized PBCA-Tp5-NP while 80% Tp5 was released from the colloidal PBCA-Tp5-NPs in 48 h. The proliferation test showed that PBCA-Tp5-NP had the similar effect as Tp5. The in vivo data showed that oral PBCA-Tp5-NPs had similar function as what intravenous Tp5 did. The oral bioavailability of Tp5 could be enhanced by PBCA nanoparticles. PBCA-Tp5-NP had the property of sustained-release and the efficacy of Tp5 was not changed after formulation.

[Research on thymopentin-loaded N-trimethyl chitosan nanoparticles administered through mouth].

OBJECTIVE: To prepare a peroral thymopentin-loaded N-trimethyl chitosan chloride-nanoparticle (Tp5-TMC-NP) ,and observe the pharmacodynamic action when the Tp5-TMC-NP is taken by way of the mouth. METHODS: N-trimethyl chitosan chloride was first synthesized, and then Tp5-TMC-NP was prepared with the formulation technology optimized by the Central Composite Design. The influence of Tp5-TMC-NP on the ratio of CD4+/CD8+ of T-lymphocytes were determined by flow cytometer. RESULTS: The regular global Tp5-TMC-NP prepared with the optimized formulation craft had the mean diameter of 110.6 nm and got the entrapment efficiency of 78.8%. The ratio of lymphocyte CD4+/CD8+ of Wistar rat administered with Tp5-TMC-NP perfusing stomach had 2.59 times higher than that with Tp5. CONCLUSION: Taken orally the Tp5-TMC-NP has much higher efficiency than Tp5.