The secretory response through electric stimulation of differentiated PC12 rat pheochromocytoma cells transfected with neuropeptide Y fused with enhanced green fluorescent protein

Exocytosis in pheochromocytoma cells was induced by electric stimulation. To chase the movement of vesicles by electric stimulation, dense-core secretory vesicles were visualized by expression of the fusion protein between neuropeptide Y and enhanced green fluorescent protein (EGFP) in these differentiated PC12 rat pheochromocytoma cells. When the cells were stimulated with constant voltage potential at –300 mV, the movement of dense-core secretory vesicles could be regulated.     

Weibel-Palade body membrane proteins exhibit differential trafficking after exocytosis in endothelial cells

Weibel-Palade bodies, the secretory granules of endothelial cells, possess two different membrane proteins. However, P-selectin is seen only in Weibel-Palade bodies in HUVECs, whereas CD63 is also seen in late endosomes/lysosomes. Since P-selectin is targeted to lysosomes in heterologous expression studies, we have determined whether a lysosomal targeting signal also operates within HUVECs. We have also examined the trafficking of CD63 to its two different intracellular locations. By following antibodies bound at the plasma membrane during stimulation, we have discovered that while half of the P-selectin recycles to the WPBs, 50% is rapidly delivered to a lamp-1-positive compartment. Thus, the lysosomal targeting signal of this protein also operates in HUVECs. CD63 is found constitutively at the cell surface of HUVECs and most of it is delivered to the late endosomes/lysosomes after internalisation. However, stimulation causes both a rise in the CD63 plasma membrane level and in the amount that recycles to the WPBs. Our data strongly suggest that the CD63 that originates in the WPB preferentially recycles to the granule rather than being delivered to the late endosome/lysosome, and that there are, therefore, two separate pools of this protein within HUVECs. Our findings indicate that although P-selectin and CD63 are both targeted to the same compartments from the PM, the kinetics and the ratio of their targeting to Weibel-Palade bodies versus lysosomes are very different.     

一次性根管治疗联合清胃散口服对牙髓炎的治疗效果及对疼痛程度影响

摘要 目的：探讨一次性根管治疗联合清胃散口服对牙髓炎的治疗效果及对疼痛程度影响。方法：选取我院2021年1月到2022年12月收治的120例牙髓炎患者，分为观察组与对照组，各60例。对照组患者应用一次性根管治疗，观察组患者应用一次性根管联合清胃散口服治疗，对比两组患者的临床治疗效果，治疗前后咀嚼功能与疼痛程度，白细胞计数（WBC）、降钙素原（PCT）、C反应蛋白（CRP）相关炎症因子水平，并对比两组患者的菌斑指数（PLI），龈沟出血指数（SBI）、龈沟探诊深度（SPD）、牙龈指数（GI）相关牙周健康指标水平。结果：观察组总有效率为93.33%明显高于对照组总有效率80.00%（P<0.05）；两组患者治疗前咀嚼功能评分与视觉模拟量表（VAS）评分对比无差异（P＞0.05），治疗后咀嚼功能评分均升高，观察组较对照组高，VAS评分降低，观察组较对照组低（P＜0.05）；两组患者治疗前WBC、PCT、CRP水平对比无差异（P＞0.05），治疗后均降低，观察组较对照组低（P＜0.05）；两组患者治疗前GI、SPD、SBI、PLI水平对比无差异（P＞0.05），治疗后均降低，观察组较对照组低（P＜0.05）。结论：一次性根管治疗联合清胃散口服能够改善牙髓炎的临床疗效，提升患者咀嚼功能，减轻疼痛程度，降低机体炎症因子水平，同时能够进一步改善患者牙周健康程度，值得临床应用推广。     

Directed evolution of a secretory leader for the improved expression of heterologous proteins and full‐length antibodies in Saccharomyces cerevisiae

Because of its eukaryotic nature, simple fermentation requirements, and pliable genetics, there have been many attempts at improving recombinant protein production in Saccharomyces cerevisiae. These strategies typically involve altering the expression of a native protein thought to be involved in heterologous protein trafficking. Usually, these approaches yield three‐ to tenfold improvements over wild‐type strains and are almost always specific to one type of protein. In this study, a library of mutant alpha mating factor 1 leader peptides (MFα1pp) is screened for the enhanced secretion of a single‐chain antibody. One of the isolated mutants is shown to enhance the secretion of the scFv up to 16‐fold over wild type. These leaders also confer a secretory improvement to two other scFvs as well as two additional, structurally unrelated proteins. Moreover, the improved leader sequences, combined with strain engineering, allow for a 180‐fold improvement over previous reports in the secretion of full‐length, functional, glycosylated human IgG₁. The production of full‐length IgG₁ at milligram per liter titers in a simple, laboratory‐scale system will significantly expedite drug discovery and reagent synthesis while reducing antibody cloning, production, and characterization costs. Biotechnol. Bioeng. 2009;103: 1192–1201. © 2009 Wiley Periodicals, Inc.     

Cysteine-rich secretory protein 3 inhibits hepatitis C virus at the initial phase of infection

Hepatitis C virus (HCV) affects 2–3% of the global population. Approximately one-quarter of acute infections cause chronic hepatitis that leads to liver cirrhosis or hepatocellular carcinoma. The major obstacle of current research is the extremely narrow host tropism of HCV. A single HCV strain can replicate in the Huh7 human hepatoma cell line. Huh7 cells can be adapted under selective pressure in vitro to identify host factors that influence viral replication. Here, we extended this strategy to the in vivo condition and generated a series of cell lines by multiple rounds of adaptation in immunocompromised mice. Adaptation increased the cellular resistance to HCV infection. Microarray analyses revealed that the expression levels of several genes were associated with HCV resistance. Notably, up-regulation of the mRNA encoding cysteine-rich secretory protein 3 (CRISP3), a glycoprotein with unknown function that is secreted from multiple exocrine glands, was correlated with HCV resistance. The presence of CRISP3 in the culture medium limited HCV replication at the early phase of infection.     

Secretory clusterin inhibits osteoclastogenesis by attenuating M-CSF-dependent osteoclast precursor cell proliferation

Secretory clusterin (sCLU)/apolipoprotein J is a multifunctional glycoprotein that is ubiquitously expressed in various tissues. Reduced sCLU in the joints of patients with bone erosive disease is associated with disease activity; however, its exact role has yet to be elucidated. Here, we report that CLU is expressed and secreted during osteoclastogenesis in mouse bone marrow-derived macrophages (BMMs) that are treated with receptor activator of nuclear factor kappa-B ligand (RANKL) and macrophage colony-stimulating factor (M-CSF). CLU-deficient BMMs obtained from CLU^−/− mice exhibited no significant alterations in OC differentiation in comparison with BMMs obtained from wild-type mice. In contrast, exogenous sCLU treatment significantly inhibited OC formation in both BMMs and OC precursor cultures. The inhibitory effect of sCLU was more prominent in BMMs than OC precursor cultures. Interestingly, treating BMMs with sCLU decreased the proliferative effects elicited by M-CSF and suppressed M-CSF-induced ERK activation of OC precursor cells without causing apoptotic cell death. This study provides the first evidence that sCLU reduces OC formation by inhibiting the actions of M-CSF, thereby suggesting its protective role in bone erosion.     

A novel protein,sperm head and tail associated protein (SHTAP), interacts with cysteine‐rich secretory protein 2 (CRISP2) during spermatogenesis in the mouse

Background information. CRISP2 (cysteine‐rich secretory protein 2) is a sperm acrosome and tail protein with the ability to regulate Ca²⁺ flow through ryanodine receptors. Based on these properties, CRISP2 has a potential role in fertilization through the regulation of ion signalling in the acrosome reaction and sperm motility. The purpose of the present study was to determine the expression, subcellular localization and the role in spermatogenesis of a novel CRISP2‐binding partner, which we have designated SHTAP (sperm head and tail associated protein). Results. Using yeast two‐hybrid screens of an adult testis expression library, we identified SHTAP as a novel mouse CRISP2‐binding partner. Sequence analysis of all Shtap cDNA clones revealed that the mouse Shtap gene is embedded within a gene encoding the unrelated protein NSUN4 (NOL1/NOP2/Sun domain family member 4). Five orthologues of the Shtap gene have been annotated in public databases. SHTAP and its orthologues showed no significant sequence similarity to any known protein or functional motifs, including NSUN4. Using an SHTAP antiserum, multiple SHTAP isoforms (～20–87 kDa) were detected in the testis, sperm, and various somatic tissues. Interestingly, only the ～26 kDa isoform of SHTAP was able to interact with CRISP2. Furthermore, yeast two‐hybrid assays showed that both the CAP (CRISP/antigen 5/pathogenesis related‐1) and CRISP domains of CRISP2 were required for maximal binding to SHTAP. SHTAP protein was localized to the peri‐acrosomal region of round spermatids, and the head and tail of the elongated spermatids and sperm tail where it co‐localized with CRISP2. During sperm capacitation, SHTAP and the SHTAP—CRISP2 complex appeared to be redistributed within the head. Conclusions. The present study is the first report of the identification, annotation and expression analysis of the mouse Shtap gene. The redistribution observed during sperm capacitation raises the possibility that SHTAP and the SHTAP—CRISP2 complex play a role in the attainment of sperm functional competence.     

Devil inside: does plant programmed cell death involve the endomembrane system?

Eukaryotic cells have to constantly cope with environmental cues and integrate developmental signals. Cell survival or death is the only possible outcome. In the field of animal biology, tremendous efforts have been put into the understanding of mechanisms underlying cell fate decision. Distinct organelles have been proven to sense a broad range of stimuli and, if necessary, engage cell death signalling pathway(s). Over the years, forward and reverse genetic screens have uncovered numerous regulators of programmed cell death (PCD) in plants. However, to date, molecular networks are far from being deciphered and, apart from the autophagic compartment, no organelles have been assigned a clear role in the regulation of cellular suicide. The endomembrane system (ES) seems, nevertheless, to harbour a significant number of cell death mediators. In this review, the involvement of this system in the control of plant PCD is discussed in‐depth, as well as compared and contrasted with what is known in animal and yeast systems.     

Defensins play a crucial role in protecting mice against oral Shigella flexneri infection

An earlier study revealed that 4-day-old mice, but not older mice, were infected with invasive Shigella strains. Here we attempted to determine the underlying mechanism that induces inflammation in the intestines of neonate mice after oral Shigella infection. Wild-type BALB/c mice of different ages (7, 14, and 35 days old) were orally administered GFP-expressing Shigella flexneri 5a M90T strain (5 × 10⁹ CFU) and analyzed for colonization 6 h following infection. We found that Shigella localized in the epithelium, lamina propria, and crypt regions of the small intestines of 7-day-old BALB/c mice. Microarray analysis revealed that expression levels of cryptdin and various types of cryptdin-related mRNA (e.g., cryptrs-2, -5, -7, -12 and lysozyme) in the small intestines were significantly lower in 7-day-old than in older mice regardless of Shigella infection status. Interestingly, matrix metalloprotease-7 (matrilysin)-deficient (MAT^−/−) mice of B6 background had more colonies and more severe symptoms of inflammation in the intestines than did wild-type B6 mice after oral Shigella challenge. This suggests that cryptdin-related antimicrobial molecules are indispensable for efficient protection against oral Shigella infection.     

Shoot anatomy and secretory structures in Hypericum species (Hypericaceae)

The anatomy and ultrastructure of internodes, leaves and petals were compared in Hypericum elegans, H. inodorum, H. olympicum, H. forrestii and two genotypes of H. perforatum. Internode anatomy was variable between species with respect to the structure of the cortical and pith parenchyma, including the presence of secretory reservoirs. Also, the secondary growth was more extensive in shrubs, i.e. H. inodorum and H. forrestii. In leaves, phloem secretory reservoirs were formed in all species, mesophyll secretory reservoirs were absent only in H. elegans and internal nodules were present only in H. elegans and H. perforatum. The petals differed between species in the mesophyll structure and the occurrence and location of secretory structures. The phloem secretory reservoirs lacked sheaths, whereas these were distinct in the mesophyll reservoirs. Other ultrastructural traits of the reservoirs were similar in all the species studied, with the exception of the leucoplast ultrastructure. In internal nodules, the inner cells vs. sheath cells differed in the number of vesicles and other membranous structures and plastid ultrastructure. © 2010 The Linnean Society of London, Botanical Journal of the Linnean Society, 2010, 163 , 70–86.