RESUMO
Aggregation represents a significant challenge for the long-term formulation stability of insulin therapeutics. The supramolecular PEGylation of insulin with conjugates of cucurbit[7]uril and polyethylene glycol (CB[7]‒PEG) has been shown to stabilize insulin formulations by reducing aggregation propensity. Yet prolonged in vivo duration of action, arising from sustained complex formation in the subcutaneous depot, limits the application scope for meal-time insulin uses and could increase hypoglycemic risk several hours after a meal. Supramolecular affinity of CB[7] in binding the B1-Phe residue on insulin is central to supramolecular PEGylation using this approach. Accordingly, here we synthesized N-terminal acid-modified insulin analogs to reduce CB[7] interaction affinity at physiological pH and reduce the duration of action by decreasing the subcutaneous depot effect of the formulation. These insulin analogs show weak to no interaction with CB[7]‒PEG at physiological pH but demonstrate high formulation stability at reduced pH. Accordingly, N-terminal modified analogs have in vitro and in vivo bioactivity comparable to native insulin. Furthermore, in a rat model of diabetes, the acid-modified insulin formulated with CB[7]‒PEG offers a reduced duration of action compared to native insulin formulated with CB[7]‒PEG. This work extends the application of supramolecular PEGylation of insulin to achieve enhanced stability while reducing the risks arising from a subcutaneous depot effect prolonging in vivo duration of action.
RESUMO
Enterokinase is a class of serine proteases that specifically recognize the cleavage DDDDK sequences. Therefore, enterokinase has been widely used as a tool enzyme in the field of biomedicine. Currently, the expression level of enterokinase in Pichia pastoris is low, which hinders related practical applications. In this study, the effects of six different signal peptides SP1, SP2, SP3, SP4, SP7 and SP8 on the secretory expression of enterokinase in Pichia pastoris were studied. Compared with α-factor, SP1 significantly increased the secretory expression of enterokinase (from 6.8 mg/L to 14.3 mg/L), and the enterokinase activity increased from (2 390±212) U/mL to (4 995±378) U/mL in shaking flask cultures. On this basis, the enterokinase activity was further enhanced to (7 219±489) U/mL by co-expressing the endogenous protein Kex2. Moreover, the activity that the mutant strain with N-terminal fusion of three amino acids of WLR was increased to (15 145±920) U/mL with a high specific activity of (1 174 600±53 100) U/mg. The efficient secretory expression of enterokinase laid a foundation for its applications in near future.
RESUMO
OBJECTIVE: To synthesize hyaluronic acid-octadecene (HOY) copolymers by terminal thiolation modification of hyaluronic acid (HA), prepare doxorubicin-loaded micelles and investigate its pharmaceutical characteristics. METHODS: HOY copolymers were synthesized through Michael addition reaction. The doxorubicin-loaded copolymer micelles were prepared with ultrasonic method, then the particle size, Zeta potential, encapsulation efficiency, drug loading efficiency and in vitro release behavior were studied. RESULTS: HOY copolymers were synthesized successfully. The particle size and Zeta potential of the drug-loaded micelles were (237.2±2.7) nm and (-22.37±0.38) mV, and the encapsulation efficiency and drug loading rate were (89.8±0.011)% and (5.4±0.007)%, respectively. Moreover, the accumulative release of doxorubicin in vitro was about 70% in 48 h, indicating that the drug was released slowly from the micelles. CONCLUSION: This study develops a new micellar system based on terminal modified HA, and provides a reference for the study of HA nanocarrier.