Analysis of the influence of different regimens of highly active antiretroviral therapy on maternal and infant outcomes in HIV-infected pregnant women / 中国实用妇科与产科杂志

OBJECTIVE: To compare the maternal and infant outcomes of pregnant women infected with human immunodeficiency virus(HIV)treated with different regimens of highly active antiretroviral therapy(HAART).METHODS: For pregnant women infected with the human immunodeficiency virus(HIV)who received antiviral therapy and delivered in the Eighth Peple's Hospital of Guangzhu between May 2015 and June 2018,they will be grouped according to different treatment options. The pregnant women's body weight,CD4+T lymphocytes,white blood cells,hemoglobin,serum albumin,neonatal body weight and adverse pregnancy outcomes were compared and analyzed.RESULTS:(1)There was no significantly statistical difference between the two groups of pregnant women in terms of body weight,white blood cells,hemoglobin or serum albumin(P>0.05).(2)The changes of CD4+T lymphocytes in the two groups of pregnant women before and after treatment were statistically different(P0.05).(4)There was no significantly statistical difference in the incidence of premature birth,premature rupture of fetal membrane,low birth weight,low amniotic fluid,fetal malformation or neonatal asphyxia between the two groups(P>0.05).Until December 2018,there were no positive reports of HIVRNA and HIV antibody detection in two groups of infants.CONCLUSION: The two HAART schemes have no significant difference in the influence on nutritional status,immune status or maternal and infant outcomes of HIV-infected pregnant women,and they are both effective and feasible,and vertical transmission of HIV from mother to child can be blocked.

Studies on the enzymatic synthesis of a new PPT-type ginsenoside via UDP-glycosyltransferase PgUGT74AE2 from Panax ginseng / 药学学报

UDP-glycosyltransferase PgUGT74AE2 from Panax ginseng can transfer a glucose moiety to the free C-3 hydroxyl of protopanaxadiol (PPD) to produce ginsenoside Rh2. However, no report demonstrates that PgUGT74AE2 can transfer a glucose moiety to the free C-3 hydroxyl of protopanaxatriol (PPT) to produce a PPT-type ginsenoside. In this study, the expression plasmid pET-32a-PgUGT74AE2 was constructed for expression of the recombinant protein and transferred into Escherichia coli Transetta (DE3) to generate the recombinant strain Transetta-PgUGT74AE2. The recombinant enzyme PgUGT74AE2 was expressed by induction of isopropyl-β-D-thiogalactoside (IPTG). An in vitro enzymatic reaction system was established with the recombinant enzyme PgUGT74AE2 and the substrate PPT. PgUGT74AE2 catalyzed the glycosylation of the free C-3 hydroxyl of PPT to produce 3-O-β-D-glucopyranosyl-dammar-24-ene-3β,6α,12β,20S-tetraol, a new PPT-type ginsenoside. This study provides an efficient approach for the biosynthesis of a new PPT-type ginsenoside through in vitro enzymatic reaction, which may pave a way to produce promising lead in drug discovery.

Expression, subcellular localization and characterization of dammarenediol-Ⅱ synthase of Panax ginseng in Saccharomyces cerevisiae / 药学学报

To study the expression and subcellular localization of recombinant dammarenediol-Ⅱ synthase (DS) in Saccharomyces cerevisiae, the dammarenediol-Ⅱ synthase gene ds was cloned from Panax ginseng, and the gene ds was fused with the gene of green fluorescent protein to obtain the fusion gene ds-gfp. The recombinant expression plasmids pESC-HIS-DS and pESC-HIS-DS-GFP were constructed and transformed into S. cerevisiae INVSc1 to obtain recombinant strains INVSc1-DS and INVSc1-DS-GFP. Microsomes of recombinant strains were prepared by differential centrifugation and observed by fluorescence microscope. The green fluorescence was only detected in INVSc1-DS-GFP microsomes, which indicated that DS was a membrane protein. It was also proved that dammarenediol-Ⅱ was produced from the cyclization of 2, 3-oxidosqualene catalyzed by DS through in vitro enzymatic reaction. In addition, our results revealed that the fusion expression of ds with gfp significantly improved the production of dammarenediol-Ⅱ from 7.53 mg·g-1 to 12.24 mg·g-1. This study provides a new strategy in the optimization of the pathway of ginsenosides biosynthesis in S. cerevisiae.

Downregulation of lanosterol synthase gene expression by antisense RNA technology in Saccharomyces cerevisiae / 药学学报

The cyclization of 2,3-oxidosqualene is the key branch point of ergosterol and triterpenoid biosynthesis. Downregulation of 2,3-oxidosqualene metabolic flux to ergosterol in Saccharomyces cerevisiae may redirect the metabolic flux toward the triterpenoid synthetic pathway. In our study, primers were designed according to erg7 gene sequence of S. cerevisiae. Three fragments including 5' long fragment, 5' short fragment and erg7 coding region fragment were amplified by PCR. 5' long fragment consists of the promoter and a part of erg7 coding region sequence. 5' short fragment consists of a part of promoter and a part of erg7 coding region sequence. These fragments were inserted reversely into pESC-URA to construct antisense expression plasmids. The recombinant plasmids were transformed into S. cerevisiae INVSc1 and recombinant strains were screened on the nutritional deficient medium SD-URA. The erg7 expression level of recombinant strains, which harbored antisense expression plasmid of erg7 coding region, was similar to that of INVScl by semi-quantitative PCR detection. But erg7 expression level of recombinant strains, which harbored 5' long antisense fragment and 5' short antisense fragment, was significantly lower than that of the control. The results of TLC and HPLC showed that the ergosterol content of recombinant strains, which harbored 5' long antisense fragment, decreased obviously. The ergosterol contents of the others were almost equal to that of INVSc1. Lanosterol synthase gene expression was downregulated by antisense RNA technology in S. cerevisiae, which lays a foundation for reconstructing triterpenoid metabolic pathway in S. cerevisiae by synthetic biology technology.

The basic strategies and research advances in the studies on glycosyltransferases involved in ginsenoside biosynthesis / 药学学报

Traditional herbal medicines, Panax ginseng, Panax quinquefolium and Panax notoginseng, attract our attention for their extensive and powerful pharmacological activities. Ginsenosides are the main active constituents of these medicinal herbs. The related glycosyltransferases involved in ginsenoside biosynthesis are the key enzymes which catalyze the last important step. Modification of ginsenoside aglycones by glycosyltransferases produces the complexity and diversity of ginsenosides, which have more extensive pharmacological activity. At present, ginsenoside aglycones and compound K have been obtained by synthetic biology. As the last step of ginsenoside biosynthesis, glycosylation of ginsenoside aglycones has been studied intensively in recent years. This review summarizes the basic strategies and research advances in studies on glycosyltransferases involved in ginsenoside biosynthesis, which is expected to lay the theoretical foundation for the in-depth research of biosynthetic pathway of ginsenosides and their production by synthetic biology.

Construction of Saccharomyces cerevisiae haploid mutant deficient in lanosterol synthase gene / 药学学报

Lanosterol synthase is encoded by the erg7 gene and catalyzes the cyclization of 2, 3-oxidosqualene, which is a rate-limiting step of the inherent mevalonate (MVA)/ergosterol metabolic pathway in Saccharomyces cerevisiae. The intermediate 2, 3-oxidosqualene is also the precursor of triterpenoids. Therefore, the cyclization of 2, 3-oxidosqualene is the key branch point of ergosterol and triterpenoids biosynthesis. Down-regulation of 2, 3-oxidosqualene metabolic flux to ergosterol in S. cerevisiae may redirect the metabolic flux toward the triterpenoid synthetic pathway reconstructed by the synthetic biology approach. To construct erg7 knockout cassette harboring the loxP-Marker-loxP element, long primers were designed, which were homologous to the sequences of both erg7 ORF and plasmid pUG66. The cassette was transformed into diploid wild strain INVSc1 by LiAc/SS Carrier DNA/PEG method and then erg7 gene haploid deficient mutant was obtained by homologous recombination. The results of semiquantitative PCR and real-time quantitative PCR revealed that erg7 expression level in erg7 gene haploid deficient mutant is one time lower than that in wild strain. The results of TLC and HPLC showed that the ergosterol content in deficient mutant decreased to 42% of that in wild strain.

Research advances of the influence factors of high level expression of recombinant protein in Pichia pastoris / 药学学报

Pichia pastoris is one of the most important systems used in the field of molecular biology for the expression of recombinant proteins. The system has advantages of high expression, high stability, high secretion, easy high-density fermentation and low cost. Many factors affect the expression of recombinant protein, such as gene copy number, codon usage preference, type of promoter, molecular chaperones, glycosylation, signal peptide and fermentation process. In this review, research advances of the above aspects are summarized, which lay a foundation for improving the expression of recombinant proteins in P. pastoris.