Hyaluronan suppresses epidermal differentiation in organotypic cultures of rat keratinocytes

Hyaluronan (hyaluronic acid, HA) is an abundant matrix component between keratinocytes of the epidermis in vivo, but its function there remains unclear. We used a lift culture model, in which rat epidermal keratinocytes (REKs) stratify at an air-liquid interface, to ask whether HA may regulate epidermal proliferation and/or differentiation. In this model, early markers of differentiation (keratin 10), and later markers (profilaggrin, keratohyalin granules, cornified layers) are faithfully expressed, both temporally and spatially. HA, measured using two different analytical techniques, accumulated to high levels only in the presence of an intact basement membrane that seals the epidermal compartment. To test whether HA has a functional role in differentiation, Streptomyces hyaluronidase (StrepH, 1 U/ml; digests >95% of HA within 4 h) was added daily to lift cultures during stratification time-course experiments over 5 days. In StrepH-treated cultures, the expression of profilaggrin and the number and size of keratohyalin granules were significantly increased relative to controls using semiquantitative histological analyses. The StrepH-related accumulation of K10 protein and profilaggrin/filaggrin were confirmed by Western analyses. Thus, it appears that the presence of intercellular HA in the epidermis acts as a brake upon intracellular events that occur during keratinocyte differentiation.     

Prolongation of insulin-induced activation of mitogen-activated protein kinases ERK 1/2 and phosphatidylinositol 3-kinase by vanadyl sulfate, a protein tyrosine phosphatase inhibitor

Vanadium salts such as vanadyl sulfate (VS), potent inhibitors of protein tyrosine phosphatases, have been shown to mimic, augment, and prolong insulin's action. However, the molecular mechanism of responses to these salts is not clear. In the present studies, we examined if VS-induced effects on insulin action are associated with enhancement or augmentation in the activation state of key components of the insulin signaling pathway. Treatment of insulin receptor-overexpressing cells with insulin or VS resulted in a time-dependent transient increase in phosphorylation and activation of extracellular signal-regulated kinases 1 and 2 (ERK 1/2) that peaked at about 5 min, then declined rapidly to about baseline within 30 min. However, when the cells were treated with VS before stimulation with insulin, sustained ERK 1/2 phosphorylation and activation were observed well beyond 60 min. VS treatment also prolonged the insulin-stimulated activation of phosphatidylinositol 3-kinase (PI3-K), which was associated with sustained interaction between insulin receptor substrate-1 (IRS-1) and the p(85 alpha) subunit of phosphatidylinositol 3-kinase (PI3-K) in response to insulin. These data indicate that prolongation of insulin-stimulated ERK 1/2 and PI3-K activation by VS is due to a more stable complex formation of IRS-1 with the p(85 alpha) subunit which may, in turn, be responsible for its ability to enhance and extend the biological effects of insulin.     

Uniformly minimum variance unbiased estimation of gene diversity

Gene diversity is an important measure of genetic variability in inbred populations. The survival of species in changing environments depends on, among other factors, the genetic variability of the population. In this communication, I have derived the uniformly minimum variance unbiased estimator of gene diversity. The proposed estimator of gene diversity does not assume that the inbreeding coefficient is known. I have also provided the approximate variance of this estimator according to Fisher's method. In addition, I have developed a numerical resampling-based method for obtaining variances and confidence intervals based on the maximum likelihood estimator and the uniformly minimum variance unbiased estimator. Efficiency in estimation of the gene diversity based on these two estimators is discussed. In accordance with the simulation results, I found that the uniformly minimum variance estimator developed in this report is more accurate for estimation of gene diversity than the maximum likelihood estimator.     

Protein dynamics during seed germination under copper stress in Arabidopsis over-expressing <Emphasis Type="Italic">Potentilla superoxide dismutase</Emphasis>

Copper (Cu), though an essential micronutrient for plants, poses toxicity at higher concentrations possibly by inducing oxidative stress. With the background that enzyme superoxide dismutase (SOD) ameliorates oxidative stress, the present work focused on understanding physiological and proteomic response of Arabidopsis seeds constitutively over-expressing copper–zinc SOD of Potentilla atrosanguinea (PaSOD) during germination in response to varied concentrations of copper sulphate (Cu stress). Transgenics showed higher germination percentage and required less “mean time to germination” under Cu-stress. In response to Cu stress, 39 differentially expressed protein spots were detected by 2-D electrophoresis in proteins of germinating wild type (WT) and transgenic seeds, of which 14 spots appeared exclusively in transgenics. Among the rest 25 protein spots, 14 showed down-regulation, one showed up-regulation, and 10 spots disappeared. MALDI-TOF and subsequent peptide mass fingerprinting analysis revealed that the down-regulated proteins in transgenics were related to oxidative stress, detoxification, germination, intermediary metabolism and regulatory proteins. Up-regulated proteins in WT and down-regulated proteins in transgenic during Cu stress were the same. Changes in key proteins, vis-à-vis alleviation of oxidative stress in transgenic Arabidopsis over-expressing PaSOD possibly alleviated toxicity of Cu-induced stress during seed germination, resulting in higher germination rate and germination percentage.     

A New Extracellular β-Galactosidase Producing Kluyveromyces sp. PCH397 from Yak Milk and Its Applications for Lactose Hydrolysis and Prebiotics Synthesis

β-Galactosidase is a crucial glycoside hydrolase enzyme with potential applications in the dairy, food, and pharmaceutical industries. The enzyme is produced in the intracellular environment by bacteria and yeast. The present study reports yeast Kluyveromyces sp. PCH397 isolated from yak milk, which has displayed extracellular β-galactosidase activity in cell-free supernatant through the growth phase. To investigate further, cell counting and methylene blue staining of culture collected at different growth stages were performed and suggested for possible autolysis or cell lysis, thereby releasing enzymes into the extracellular medium. The maximum enzyme production (9.94 ± 2.53U/ml) was achieved at 37 °C in a modified deMan, Rogosa, and Sharpe (MRS) medium supplemented with lactose (1.5%) as a carbon source. The enzyme showed activity at a wide temperature range (4–50 °C), maximum at 50 °C in neutral pH (7.0). In addition to the hydrolysis of lactose (5.0%), crude β-galactosidase also synthesized vital prebiotics (i.e., lactulose and galacto-oligosaccharides (GOS)). Additionally, β-fructofuranosidase (FFase) activity in the culture supernatant ensued the synthesis of a significant prebiotic, fructo-oligosaccharides (FOS). Hence, the unique features such as extracellular enzymes production, efficient lactose hydrolysis, and broad temperature functionality by yeast isolate PCH397 are of industrial relevance. In conclusion, the present study unrevealed for the first time, extracellular production of β-galactosidase from a new yeast source and its applications in milk lactose hydrolysis and synthesis of valuable prebiotics of industrial importance.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12088-021-00955-1.Keyword: β-Galactosidase, Lactulose, Galacto-oligosaccharides, Fructo-oligosaccharides, Milk-microbes

β-Galactosidase (EC 3.2.1.23) hydrolyzes the glycosidic bond in β-galactosides and finds applications in the food industry [1, 2]. The trans-glycosylation property of β-galactosidase (β-gal) is widely used to produce various galactosylated products and prebiotics such as GOS and lactulose [3–7]. The β-gal enzyme is produced intracellularly by many bacteria and yeast, a major constraint for industrial production [1, 8]. Therefore, extracellular β-gal producing bacteria/yeast are of huge relevance. Hence, the present work revealed an efficient extracellular β-gal producing microbe from dairy products of the Indian Himalaya and evaluated its applications in lactose hydrolysis and prebiotics’ synthesis.In this study, twenty milk and four curd samples were collected from the Lahaul and Pangi valleys of Himachal Pradesh, India. The samples were plated on MRS and Elliker agar medium (Himedia, India) for 2–7 days at 28 °C and 37 °C until visible microbial growth. Morphologically distinct isolates were screened for β-gal activity using X-Gal and IPTG plate assay [6, 9]. The positive isolates were screened for β-gal production in liquid MRS medium. The β-gal activity was expressed as U/mg dcw (dry cell weight) for whole cells and U/ml for cell-free supernatant [10, 11]. Yeast isolate PCH397 showing the highest and extracellular enzymatic activity was selected. The culture and reaction conditions for maximum β-gal activity were optimized. FFase activity of whole cells and cell-free supernatant was estimated as described by Lincoln and More [12].The cell-free supernatant (β-gal) was employed for applications in lactose hydrolysis and prebiotic synthesis. The enzyme was incubated with lactose solution (5%, w/v) at 37 °C for lactose hydrolysis followed by thin layer chromatography (TLC) [13] analysis and quantification using the ImageJ program (http://rsbweb.nih.gov/ij/). Further, the cell-free supernatant was incubated with milk at 4 °C for milk lactose hydrolysis. Samples were withdrawn at different time intervals and analyzed for residual lactose concentration using ultra-high performance liquid chromatography-quadrupole-time of flight-ion mobility mass spectrometry (UHPLC-Q-TOF-IMS) [14]. Prebiotic production was carried out by mixing an equal volume of the enzyme with a sugar solution i.e., lactose (40%, w/v) for GOS, and lactose (20%, w/v) + fructose (20%, w/v) for lactulose and FOS production, respectively at 50 °C for 24 h [6]. Samples were analyzed by TLC for GOS, UHPLC-Q-TOF-IMS for FOS and lactulose synthesis.The study resulted in the isolation of 203 morphologically distinct microbes, 62 of which were tested positive for β-gal. Based on quantitative screening, eight isolates showing maximum β-gal activity were selected and examined for the intracellular and extracellular enzymatic activities (Table S1). Yeast isolate PCH397 exhibited maximum extracellular β-gal activity (9.94 ± 2.53 U/ml) along with FFase activity (0.59 ± 0.155) after 48 h of incubation. Isolate PCH397 was identified as Kluyveromyces marxianus by its morphological and molecular characterization (Fig. S1). Phylogenetic tree based on ITS DNA sequence showed similarity (99.63%) with Kluyveromyces marxianus CBS712. To the best of our knowledge, the genus Kluyveromyces has not been reported earlier for extracellular β-gal production. In the past, efforts were made to produce β-gal extracellularly through permeabilization or incorporation of signal peptide to β-gal gene in a fusion construct [15, 16]. The isolate PCH397 was selected due to its generally regarded as safe (GRAS) status and the novel feature of extracellular enzyme production.Highest β-gal activity in the extracellular environment was observed when PCH397 was grown in MRS medium supplemented with 1.5% (w/v) lactose as a substrate and incubated at 37 °C for 48 h (Fig. S2). PCH397 produced extracellular β-gal at lower lactose concentration (1.5%) as compared to various Kluyveromyces spp. [15] where 3% lactose has been used in the growth medium for intracellular β-gal production. Further, whether the extracellular enzyme activity is due to the secretion or cell lysis, the CFU count and cell viability were checked by the methylene blue test. The decreased cell count in the late stationary phase for live cells (Fig. S3) and increased number of methylene blue stained cells indicated cell death (Fig S4). These results suggested that cell lysis in the late stationary phase leads to the secretion of enzymes in extracellular medium. The extracellular production of enzyme would lead to a lower production costs of the enzyme.Cell-free supernatant showed the highest β-gal activity at pH 7.0 in 10 mM sodium phosphate buffer at 50 °C in 5 min (Fig S2). The β-gal enzyme from the current finding holds promise in the sweet whey and milk lactose hydrolysis [1] due to its neutral pH optima. Also, β-gal, which is functional at high temperatures, is used in the synthesis of oligosaccharides [1, 3]. High temperature increases the reaction rate as well as lactose solubility, thus, facilitating transgalactosylation reactions [17]. The β-gal activity (9 U/ml) in cell-free supernatant of PCH397 completely hydrolyzed 5.0% of lactose within 8 h at 37 °C (Fig. 1a, S5a). In a recent study, 5.0% lactose was also hydrolyzed by purified β-gal (5 U/ml) of Paenibacillus barengoltzii CAU904 within 8 h at 40 °C [13]. Under refrigerated conditions (4 °C), the cell free supernatant hydrolyzed ~ 50% milk lactose within 36 h and ~ 80% in 72 h (Fig. 1b, S5b). Since β-gal of PCH397 is active at 4 °C, the enzyme could be utilized to hydrolyze lactose in dairy products under refrigerated conditions. Lactose-free milk products or low-lactose milk products are important dietary constituents for lactose intolerant individuals and deliver essential nutrients to combat nutritional deficiencies [18]. Even with commercially purified enzymes, 100% milk-lactose hydrolysis could not be achieved at a low temperature [19]. However, the crude enzyme from the present investigation can efficiently hydrolyze milk lactose at ambient and refrigerated conditions, reducing the cost associated with enzyme purification. Additionally, the source of enzyme is Kluyveromyces sp. which has GRAS status, therefore, can be used in food applications.Open in a separate windowFig. 1Lactose hydrolysis by crude β-gal of PCH397. a Relative quantification of the hydrolysed products from lactose (5%, w/v) at 37 °C for 24 h. b Relative decrease in lactose concentration (%) at refrigerated conditions obtained by UHPLC-QTOF-IMSFurther, the enzyme was evaluated for its ability to catalyze transgalactosylation reactions at 50 °C. The crude enzyme was incubated with different substrate mixture viz. lactose and fructose. After 8 h of incubation, 50% of lactose was hydrolyzed into glucose, galactose, and GOS (Fig. S6a). Maximum GOS production was achieved after 12 h (Fig. 2a). The purified β-gal from Paenibacillus barengoltzii synthesized GOS from 350 g/L of lactose within 4 h [13]. Though GOS synthesis was faster in comparison to the current study, it is to be noted that we used a crude enzyme mixture instead of a purified enzyme. The crude enzyme has also shown FFase activity (Table S1), and was used for the synthesis of FOS from lactose and fructose mixture. UHPLC-Q-TOF-IMS analysis confirmed the formation of FOS (Fig. 2b). Multiple peaks were observed in the sample containing lactulose, one of which was identical with the peak of lactulose standard (Fig. 2c) as confirmed by HPAEC-PAD (Fig. S6b). The lactulose formation was maximum at 20 h of incubation (Fig. S6c).Open in a separate windowFig. 2Hydrolysis and transgalactosylation of lactose by crude enzyme from PCH397 having β-gal and FFase activity. a Relative quantification of the hydrolyzed and transgalactosylated products. UHPLC-QTOF-IMS detection of prebiotics b FOS and c lactulose with their respective standardIt is the first report of simultaneous co-synthesis of multiple prebiotics i.e., GOS, FOS, and lactulose using a yeast strain. Similar reports for GOS and FOS synthesis have been attempted by enzymatic means from fungal sources in the past [6]. The synthesis of multiple prebiotics is very advantageous. Numerous studies have shown that blended consumption of multiple prebiotics including GOS and FOS has many health benefits [20–24]. The combination of GOS, FOS, and lactulose can be of considerable importance for their prebiotic applications. In conclusion, our findings revealed a yeast source for the cost-effective production of β-galactosidase and a strategy for co-synthesis of valuable prebiotics, which is not reported in the past. The utilization of a yeast source with GRAS status for lactose hydrolysis and co-synthesis of prebiotics promises various health benefits and commercial relevance.     

Control of annual gonadal cycles in Indian songbirds

Abstract

Reproduction is a part of life cycle with great environmental dependence. In contrast to temperate avian species, which mostly breed during summer, the Indian songbirds have more flexible breeding programs and exhibit a spectrum of reproductive strategies with the breeding season scattered all over the year. Control of breeding cycles in the Indian songbirds, therefore, are broadly viewed in light of two strategies (i) birds showing strong photoperiodic component in regulation of reproductive and post-reproductive events (ii) birds that do not exhibit typical photoperiodic regulation indicating the involvement of an inherent rhythm of reproduction. Both circadian and circannual rhythms have been demonstrated to regulate annual gonadal cycles of Indian songbirds. While photoperiod continues to be a predominant proximate factor for timing of breeding in majority of Indian songbirds investigated so far, some studies reveal the role of non photoperiodic cues such as the food availability, temperature, rainfall, etc. in timing/modulating the timing of breeding. The conversion or non-conversion of thyroxine to triiodothyronine may act as a long or short photoperiod signal and may up or downregulate the synthesis and release of GnRH-I in hypothalamus, FSH and LH in anterior pituitary and gonadal steroids in gonads causing gonadal growth or regression, respectively.     

A monomeric 3(10)-helix is formed in water by a 13-residue peptide representing the neutralizing determinant of HIV-1 on gp41

The peptide gp41(659-671) (ELLELDKWASLWN) comprises the entire epitope for one of the three known antibodies capable of neutralizing a broad spectrum of primary HIV-1 isolates and is the only such epitope that is sequential. Here we present the NMR structure of gp41(659-671) in water. This peptide forms a monomeric 3(10)-helix stabilized by i,i+3 side chain-side chain interactions favored by its primary sequence. In this conformation the peptide presents an exposed surface, which is mostly hydrophobic and consists of conserved HIV-1 residues. The presence of the 3(10)-helix is confirmed by its characteristic CD pattern. Studies of the 3(10)-helix have been hampered by the absence of a model peptide adopting this conformation. gp41(659-671) can serve as such a model to investigate the spectral characteristics of the 3(10)-helix, the factors that influence its stability, and the propensity of different amino acids to form a 3(10)-helix. The observation that the 3(10)-helical conformation is highly populated in the peptide gp41(659-671) indicates that the corresponding segment in the cognate protein is an autonomous folding unit. As such, it is very likely that the helical conformation is maintained in gp41 throughout the different tertiary structures of the envelope protein that form during the process of viral fusion. However, the exposure of the gp41(659-671) segment may vary, leading to changes in the reactivity of anti-gp41 antibodies in the different stages of viral fusion. Since gp41(659-671) is an autonomous folding unit, peptide immunogens consisting of the complete gp41(659-671) sequence are likely to induce antibodies highly cross-reactive with HIV-1.     

Endometritis Increases Pro-inflammatory Cytokines in Follicular Fluid and Cervico-vaginal Mucus in the Buffalo Cow

Emerging evidence shows that some of the pro-inflammatory cytokines are elevated not only in the endometrium but also in the follicular fluid of cows with endometritis. Developing a cervico-vaginal mucus (CVM) based test has the potential for becoming a pen-side test because of the ease of sample collection. The present study describes the results of two different experiments. The first experiment was conducted to investigate the influence of endometritis on the proinflammatory cytokines of follicular fluid based on the reproductive tracts of buffalo collected at a slaughter house Buffalo genitalia were categorized into purulent endometritis (PE), cytological endometritis (CE), and non-endometritis (NE) based on the white-side test and endometrial cytology, respectively (n?=?14/group). Each group was subdivided into follicular and mid-luteal stage (n?=?7/stage) and the follicular fluid was collected from the largest follicle. Second experiment was done to study the difference in the levels of proinflammatory cytokines in the CVM of repeat breeders with subclinical endometritis presented to the clinic. CVM was collected from the repeaters (n?=?10) and non-repeaters (n?=?10) through aseptic trans-vaginal aspiration. The pro-inflammatory cytokines such as IL-1β, IL-6, IL-8, and TNFα were quantitated through bovine specific ELISA kits. Significantly higher concentrations of pro-inflammatory cytokines (IL-1β, IL-8, IL-6, and TNFα) along with low intra-follicular estradiol in buffaloes of PE and CE groups suggest that endometritis impedes the follicular steroidogenesis. Significantly higher concentration of IL-1β and TNF-α in the CVM of repeaters indicate their potential as a pen-side diagnostic test for CE.