Carnitine as a Growth Factor for Pediococcus soyae

Pediococcus soyae, the soy sauce lactic acid bacteria, requires two kinds of factors for growth as well as for salt-tolerance. These two factors are: glycine-betaine and an unknown substance tentatively named P-factor. The present paper reports that carnitine (vitamin Bt) is substitutable for glycine-betaine for its growth promoting effect on the organism. This is the first microorganism requiring carnitine as a specific growth factor.     

P-Factor,a New Peptidic Growth Factor for Pediococcus soyae

The P-factor a new growth factor for Ped. soyae, is found in partial acid and enzymic hydrolysates of Hammersten’s milk casein, and is therefore, supposed to be a kind of peptide. The well-known peptidic growth promoting substance for Lact. casei, strepogenin and its relating substances, are quite ineffective to the author’s organism. P-factor exists along with the S-factor which is another growth promoting-factor for this lactic acid bacterium, in soy mash juice and in the water extract of Aspergillus sojae mycelium. The former substance is also found in various kinds of commercial peptones. The factor was not substitutable with all of the 19 synthetic peptides tested. S-factor is effective, only in the presence of the P-factor.     

Growth of Pediococcus soyae nov. sp. in Highly Concentrated Solutions of Inorganic Salts and Sugars

Pediococcus soyae nov. sp., which has an inherited salt tolerant nature, is grown in solutions of high osmotic pressure. When this strain is transferred from 0.5% salted medium to a new medium containing 18% sodium chloride, the viable counts of this organism firstly decrease from about one half to one-third of the inoculated cells, and then normal growth occurs. This indicates the occurrence of physiological adaptation at an early stage of growth.

The growth of this lactic acid bacterium is observed in concentrated solutions of various inorganic salts. The solutions containing Na⁺, K⁺, Cl^?, NO₃^? and SO₄^{– –} ions are not toxic for the organism, and the organism can grow in solutions of 133 atm. osmotic pressure, generally. However, Li⁺, Ca⁺⁺, Mg⁺⁺ and Br⁺ are, toxic for growth.

In concentrated sugar solutions, this organism also propagates well, and growth is observed in the media containing 50% glucose or 60% sucrose, osmotic pressure being 105 and 84 atm., respectively. Therefore, Pediococcus soyae nov. sp. is osmotolerant.     

Succinate as a Growth Factor for Bacteroides melaninogenicus

Rumen strains of the obligate anaerobe Bacteroides melaninogenicus normally require medium supplemented with both heme and vitamin K. Sodium succinate was found to be an additional growth factor in that this compound can replace the requirement for heme in the presence of vitamin K, allowing good growth of the organism, and succinate can also partially replace the requirement for vitamin K in the presence of heme. The addition of succinate to a medium supplemented with both vitamin K and heme increases the growth rate of the culture. This ability to stimulate growth was specific for succinate, and cells grown without heme but with vitamin K and succinate were insensitive to cyanide. These experiments demonstrate a central role for succinate in the metabolism of B. melaninogenicus.     

Identification of para-Cresol as a Growth Factor for Methanoplanus endosymbiosus

Growth of the methanogenic bacterium Methanoplanus endosymbiosus is dependent on the presence of ruminal fluid. Ruminal fluid could be replaced by the eluate of a rumen-derived anaerobic digester. From the eluate of the digester, a growth-stimulatory component was purified and identified as p-cresol. Authentic p-cresol supported a half-maximal growth rate of the organism at 50 nM concentration.     

Nerve Growth Factor as a Mitogen for a Pancreatic Carcinoid Cell Line

Abstract: Carcinoid tumors are a group of neuroendocrine neoplasms distributed widely throughout the body but most commonly occurring in the gut. These tumors retain many characteristics of their neural crest origin, including secretion of neuroactive peptides and responsiveness to neurotrophic substances. Nerve growth factor (NGF), a neurotrophic protein involved in maintenance and differentiation of peripheral sympathetic and sensory neurons, regulates growth of several neural tumor cells by inducing a differentiated phenotype and subsequent inhibition of cell growth rate. We examined the actions of NGF in a functioning human pancreatic carcinoid cell line (termed BON). NGF has no effect on the cytoarchitecture or constitutive secretion of bioamines in this carcinoid cell line. NGF, however, stimulates the in vitro cellular proliferation of BON cells. BON cells possess mRNA for the NGF receptors (p75^LNGFR and p140^trkA) and membrane-associated tyrosine kinase activity is increased in response to NGF. Both the mitogenic activity of NGF, as well as the receptor-linked tyrosine kinase activity, can be abrogated in BON cells by the trkA inhibitor K-252a and specific anti-NGF antibody. Our studies demonstrate that NGF is a mitogen for this carcinoid cell line without effect on cellular phenotype or cytoarchitecture. NGF may play a role in the development and progression of human carcinoid tumors.     

The Role of Thiamine as a Factor for the Growth of Brochothrix thermosphacta

Thiamine enhances growth of the meat spoilage organism, Brochothrix thermosphacta. It fulfils some, but not all, of the yeast-extract requirement of this organism. Oxythiamine acts as a growth inhibitor at high concentrations and the inhibition is readily reversed by thiamine. The possible roles of thiamine in the metabolism of Br. thermosphacta are discussed.     

Assessment of Pediococcus acidilactici as a Potential Silage Inoculant

Eighteen Pediococcus strains were screened for their potential as silage inoculants. Pediococcus acidilactici G24 was found to be the most suitable, exhibiting a short lag phase on both glucose and fructose, a rapid rate of acid production, a high sugar-to-lactate conversion efficiency, no detectable breakdown of proteins or lactic acid, and the ability to grow within a broad range of pH and temperature. When tested in laboratory silos using grass with a water-soluble carbohydrate content of 24 g/kg of aqueous extract, P. acidilactici G24 stimulated the natural Lactobacillus plantarum population and accelerated the rates of lactic acid production and pH decrease. After 6 days of fermentation, the inoculated silage exhibited a 12% decrease in ammonia nitrogen and an 11% increase in crude protein levels compared with uninoculated controls. The use of an L. plantarum inoculant at a rate of 10⁴ bacteria per g of grass in conjunction with P. acidilactici G24 produced no additional beneficial effect. Inoculation of grass with a water-soluble carbohydrate level of 8 g/kg of aqueous extract with P. acidilactici G24 led to no acceleration in the rate of L. plantarum growth or pH decrease. However, after 7 days of fermentation the inoculated silage had a 14% lower ammonia nitrogen protein content than did uninoculated controls. The results suggest that P. acidilactici G24 may be useful as a silage inoculant for crops with a sufficiently high water-soluble carbohydrate level.     

Glycine Betaine as a Direct Substrate for Methanogens (Methanococcoides spp.)

Nine marine methanogenic Methanococcoides strains, including the type strains of Methanococcoides methylutens, M. burtonii, and M. alaskense, were tested for the utilization of N-methylated glycines. Three strains (NM1, PM2, and MKM1) used glycine betaine (N,N,N-trimethylglycine) as a substrate for methanogenesis, partially demethylating it to N,N-dimethylglycine, whereas none of the strains used N,N-dimethylglycine or sarcosine (N-methylglycine). Growth rates and growth yields per mole of substrate with glycine betaine (3.96 g [dry weight] per mol) were similar to those with trimethylamine (4.11 g [dry weight] per mol). However, as glycine betaine is only partially demethylated, the yield per methyl group was significantly higher than with trimethylamine. If glycine betaine and trimethylamine are provided together, trimethylamine is demethylated to dimethyl- and methylamine with limited glycine betaine utilization. After trimethylamine is depleted, dimethylamine and glycine betaine are consumed rapidly, before methylamine. Glycine betaine extends the range of substrates that can be directly utilized by some methanogens, allowing them to gain energy from the substrate without the need for syntrophic partners.     

Targeting Vascular Endothelial Growth Factor Receptors as a Therapeutic Strategy for Osteoarthritis and Associated Pain

Pain is the major reason that patients suffering from osteoarthritis (OA) seek medical care. We found that vascular endothelial growth factors (VEGFs) mediate signaling in OA pain pathways. To determine the specific contributions of VEGFs and their receptors (VEGFRs) to joint pathology and pain transmission during OA progression, we studied intra-articular (IA) injections of VEGF ligands into murine knee joints. Only VEGF ligands specific for the activation of VEGFR1, but not VEGFR2, induced allodynia within 30 min. Interventions in OA by inhibitors of VEGFRs were done in vivo using a preclinical murine OA model by IA injections of selective inhibitors of VEGFR1/VEGFR2 kinase (pazopanib) or VEGFR2 kinase (vandetanib). OA phenotypes were evaluated using pain-associated murine behavioral tests and histopathologic analyses. Alterations in VEGF/VEGFR signaling by drugs were determined in knee joints, dorsal root ganglia, and spinal cord by immunofluorescence microscopy. Pazopanib immediately relieved OA pain by interfering with pain transmission pathways. Pain reduction by vandetanib was mainly due to the inhibition of cartilage degeneration by suppressing VEGFR2 expression. In conclusion, IA administration of pazopanib, which simultaneously inhibits VEGFR1 and VEGFR2, can be developed as an ideal OA disease-modifying drug that rapidly reduces joint pain and simultaneously inhibits cartilage degeneration.     

Sostdc1 Secreted from Cutaneous Lymphatic Vessels Acts as a Paracrine Factor for Hair Follicle Growth

In our previous study, we found that lymphatic vessels stimulate hair follicle growth through paracrine effects on dermal papilla cells. However, the paracrine factors secreted from cutaneous lymphatic vessels that can activate dermal papilla cells are still unknown. In this study, we investigated whether lymphatic endothelial cells might secrete paracrine factors that activate dermal papilla cells in vitro. We found that Sostdc1 was more expressed in lymphatic endothelial cells compared with blood vascular endothelial cells. In addition, Sostdc1 expression levels were significantly increased during the anagen phase in the back skin of C57BL/6J mice, as compared to the telogen phase. We also observed that incubation of dermal papilla cells with 200 ng/mL Sostdc1 for 72 h induced the expression levels of Lef-1, a downstream target of Wnt signaling. Taken together, our results reveal that Sostdc1, a BMP antagonist, secreted from cutaneous lymphatic vessels, may act as a paracrine factor for hair follicle growth.     

Insulin-Like Growth Factor Binding Protein-4 as a Marker of Chronic Lupus Nephritis

Kidney biopsy remains the mainstay of Lupus Nephritis (LN) diagnosis and prognostication. The objective of this study is to identify non-invasive biomarkers that closely parallel renal pathology in LN. Previous reports have demonstrated that serum Insulin-like growth factor binding protein 4 (IGFBP-4) was increased in diabetic nephropathy in both animal models and patients. We proceeded to assess if IGFBP4 could be associated with LN. We performed ELISA using the serum of 86 patients with LN. Normal healthy adults (N = 23) and patients with other glomerular diseases (N = 20) served as controls. Compared to the healthy controls or other glomerular disease controls, serum IGFBP-4 levels were significantly higher in the patients with LN. Serum IGFBP-4 did not correlate well with systemic lupus erythematosus disease activity index (SLEDAI), renal SLEDAI or proteinuria, but it did correlate with estimated glomerular filtration rate (R = 0.609, P < 0.0001). Interestingly, in 18 patients with proliferative LN whose blood samples were obtained at the time of renal biopsy, serum IGFBP-4 levels correlated strongly with the chronicity index of renal pathology (R = 0.713, P < 0.001). IGFBP-4 emerges a potential marker of lupus nephritis, reflective of renal pathology chronicity changes.     

Characterization of PXK as a Protein Involved in Epidermal Growth Factor Receptor Trafficking

The phox homology (PX) domain is a phosphoinositide-binding module that typically binds phosphatidylinositol 3-phosphate. Out of 47 mammalian proteins containing PX domains, more than 30 are denoted sorting nexins and several of these have been implicated in internalization of cell surface proteins to the endosome, where phosphatidylinositol-3-phosphate is concentrated. Here we investigated a multimodular protein termed PXK, composed of a PX domain, a protein kinase-like domain, and a WASP homology 2 domain. We show that the PX domain of PXK localizes this protein to the endosomal membrane via binding to phosphatidylinositol 3-phosphate. PXK expression in COS7 cells accelerated the ligand-induced internalization and degradation of epidermal growth factor receptors by a mechanism requiring phosphatidylinositol 3-phosphate binding but not involving the WASP homology 2 domain. Conversely, depletion of PXK using RNA interference decreased the rate of epidermal growth factor receptor internalization and degradation. Ubiquitination of epidermal growth factor receptor by the ligand stimulation was enhanced in PXK-expressing cells. These results indicate that PXK plays a critical role in epidermal growth factor receptor trafficking through modulating ligand-induced ubiquitination of the receptor.Both constitutive endocytosis and activated endocytosis are highly regulated events by which cells take up nutrients and internalize receptors for recycling or degradation (47). Endocytosed molecules are delivered to early endosomes, where the components are sorted to the cell surface for recycling back to the plasma membrane, or to late endosomes to be degraded in lysosomes (17). The molecular mechanisms regulating these events are not fully understood.One of the major protein families involved in the trafficking of membrane compartments is sorting nexins (SNXs), which are characterized by the presence of phox homology (PX) domains (8, 65). The PX domain is a protein module which consists of approximately 130 amino acids with three β-strands followed by three α-helices forming a helical subdomain, and the general function of this module is to interact with the head groups of inositol phospholipids through which parental proteins are targeted to specific cellular compartments. Most of the SNXs examined to date specifically recognize phosphatidylinositol 3-phosphate [PtdIns(3)P], which is found predominately in early endosomes (11). The founding member of the SNX family, SNX1, was initially identified as an interaction partner of epidermal growth factor receptor (EGFR), and the expression of SNX1 enhanced lysosomal degradation of EGFR (38); therefore, SNXs are most likely to be involved in the trafficking of many different families of receptors which are recycled to the cell surface or sent to the lysosome for degradation (19). On the other hand, PX domain-containing proteins have also been reported to bind to phosphoinositides other than PtdIns(3)P and to have functions independent of receptor trafficking (54). For example, phospholipase D is a PX domain-containing protein that hydrolyzes phosphatidylcholine to produce a second-messenger molecule, phosphatidic acid. Interestingly, phospholipase D has been recently shown to accelerate EGFR endocytosis by activating dynamin GTPase through its PX domain but independently of lipase activity (39). Cytokine-independent survival kinase (CISK) is a PX domain-containing protein kinase that has also been shown to regulate sorting of a chemokine receptor CXCR4 through AIP4, the CXCR4 ubiquitin ligase (60). RGS-PX1, a GTPase-activating protein for Gαs of heterotrimeric GTP-binding proteins, and KIF16B, a PX domain-containing kinesin superfamily member, have been shown to regulate EGFR trafficking (27, 72) and are now grouped into the SNX family as SNX13 and SNX26, respectively.Another feature of the PX domain is a well-conserved polyproline sequence (PXXP) in the variable loop between α1 and α2 helices, which led to the original identification of the PX domain as a SH3 domain-binding partner (53). The physiological importance of both intermolecular and intramolecular interactions mediated by polyproline sequences has been shown in various molecules, including phospholipase D2 (33) and p47^phox (1). In mammals, there are currently 47 proteins harboring PX domains, and 30 proteins are termed SNXs (59). The functions of these proteins have just begun to be revealed.Actin cytoskeletal dynamics have been implicated not only in cell motility and cytokinesis but also in endocytic processes, although the necessity and role in endocytosis in higher eukaryotic cells remain ambiguous (12, 34, 35, 55). The WASP homology 2 (WH2) domain is known as an actin-binding motif found in regulators of the actin cytoskeleton, including Wiskott-Aldrich syndrome protein (WASP), Scar/WASP-family verprolin-homologous protein (WAVE), verprolin/WASP-interacting protein (WIP), missing in metastasis (MIM), and β-thymosins (52). Some proteins with WH2 domains, such as β-thymosin, prevent actin filament assembly by sequestering actin monomers, while others, such as N-WASP and the Drosophila protein Ciboulot participate in barbed-end actin assembly (52). Recently, the structural basis for these opposite functions of WH2 domains was demonstrated; the interaction of the C-terminal region of β-thymosin/WH2 domain with the pointed end of the actin monomer accounts for the switch in function from inhibition to promotion of actin assembly (26). WH2 domains exist in almost 20 proteins, whose functions remain to be clarified.In the present study, we isolated a new multimodular protein (termed PXK), conserved in multicellular organisms including humans through flies, which possesses a PX domain, a protein kinase-like domain, and a WH2 domain. We show that the PX and WH2 domains function as PtdIns(3)P and actin-binding domains, respectively. PXK expression in COS cells accelerated ligand-induced EGFR endocytosis and degradation that was dependent on a functional PX domain but independent of the WH2 domain. PXK also enhanced ubiquitination of EGFR induced by EGF stimulation in these cells. Based on these results, we propose that PXK is a functional sorting nexin that may play an additional role in cellular function via its interaction with the actin cytoskeleton.     

bFGF/BMP/胶原膜加速颌骨骨折愈合的大体及X线观察

目的：了解胶原膜作为生长因子缓释材料治疗颌骨骨折的应用前景。方法：将100μg的rhBMP-2用1ml的bFGF溶液完全溶解;用移液器移出40μl的该溶液,滴加到面积为0.5cm×1cm的胶原膜组织块中,冻干后制成生长因子缓释系统;在12只新西兰大白兔两侧制成人工下颌骨骨折模型,左侧置放bFGF/BMP/胶原膜;右侧均为空白对照;术后2、4、12周行临床大体观察及X线片观察。结果：实验组骨折愈合速度明显快于对照组。术后2周,X线结果显示bFGF/BMP/胶原膜组骨折断端边缘模糊。对照组骨折线明显。术后4周,X线结果显示bFGF/BMP/胶原膜骨折线基本不可见,骨折对位良好,断端边缘基本消失,骨折无错位。对照组骨折下缘可见纤维性骨痂形成,骨折线模糊。术后12周,各组X线结果无差异,骨折部位接近正常骨组织。结论：bFGF/BMP/胶原膜能加速骨折愈合,提高骨折愈合效果。