Improvement of stilbene production by mulberry Morus alba root culture via precursor feeding and co-elicitation.

Large amounts of Morus alba L. (MA) roots are needed as the source of active stilbenes in the industrial production of traditional medicines and cosmeceuticals. A recent investigation demonstrated resveratrol and its derivatives to be promising anti-COVID-19 agents. However, conventional cultivation of MA does not meet the demand for its stilbenes, and root quality usually varies between crops. This study established the in vitro non-GMO root culture of MA and optimized the root density, precursor feeding, and elicitors for stilbene productivity. A root culture with optimal inoculum density (3 g/flask of 30 mL medium) accumulated mulberroside A, oxyresveratrol, and resveratrol at 18.7 ± 1.00 mg/g, 136 ± 5.05 µg/g, and 41.6 ± 5.84 µg/g dry weight (DW), respectively. The feeding of L-tyrosine shortened the time required to reach the stilbene productive stage. Root cultures co-treated with 200 µM methyl jasmonate and 2 mg/mL yeast extract accumulated the highest contents of mulberroside A (30.3 ± 2.68 mg/g DW), oxyresveratrol (68.6 ± 3.53 µg/g DW), and resveratrol (10.2 ± 0.53 µg/g DW). In summary, root culture is a promising and sustainable source of stilbenes for the development of health products and agents for further investigation as potential anti-COVID-19 agents.

Novel aspects of Cell Division Cycle and Apoptosis Regulator 1 (CCAR1) protein in Morus notabilis: an in silico approach.

Cell division cycle and apoptosis regulator 1 (CCAR1) is a deleted in breast cancer domain containing protein and their molecular roles in the animal system are well characterized. So far study on CCAR1 protein has not available in the plant system. The domain-based phylogenetic study clearly indicates that the CCAR1 protein has widely distributed throughout the plant kingdom. Intron-less CCAR1 gene encoded protein comprises five conserved domain and huge intrinsic disorder. Functional annotation of cis-regulatory elements (CREs) reveales that a wide range of potential transcription factor binding sites (TFBSs) are present in CCAR1 gene promoter. Besides that potential miRNA targets those control post-transcriptional regulations are also identified in the present study. Furthermore, gene ontogeny (GO) analysis revealed that CCAR1 have dynamic role in a wide number of cellular and metabolic processes. In this study, we first report the regulation, functional and structural property of CCAR1 transcript and protein which will help to assist crop improvement by manipulating CCAR1.

Alginate immobilization of Morus alba L. cell suspension cultures improved the accumulation and secretion of stilbenoids.

Morus alba L. (Moraceae) has been used in traditional medicine for the treatment of several illnesses. Recent research also revealed several pharmacological activities from many groups of secondary metabolites, including the stilbenoids mulberroside A, oxyresveratrol, and resveratrol, which are promising compounds for cosmetic and herbal supplement products. In our previous study, cell cultures of M. alba showed high productivity of these compounds. In this study, we attempted to develop immobilized cell cultures of M. alba and to test the effect of elicitors and precursors on the production of stilbenoids. The immobilization of the M. alba cells significantly promoted the secretion of mulberroside A into the extracellular matrix and culture media to 60%, while enhancing the level of oxyresveratrol and resveratrol by 12- and 27-fold, respectively. The elicitation of immobilized cells with a combination of 50 µM methyl jasmonate and 0.5 mg/mL yeast extract for 24 h promoted a twofold increase in the production of all three stilbenoids. Furthermore, the addition of 0.05 mM L-phenylalanine, 0.03 mM L-tyrosine, or a combination resulted in the enhancement of mulberroside A production for up to twofold. The addition of L-tyrosine significantly enhanced the production of oxyresveratrol and resveratrol. This is the first report of stilbenoid production using immobilized cell cultures of M. alba. The cultures have benefits over normal cell suspension cultures by promoting the secretion of mulberroside A and enhancing the levels of oxyresveratrol and resveratrol. Thus, it could be a candidate method for the production of these stilbenoids.

Improvement of stilbenoid production by 2-hydroxypropyl-ß-cyclodextrin in white mulberry (Morus alba L.) callus cultures.

Mulberroside A, oxyresveratrol and resveratrol, commonly found in Morus alba L., are potent anti-aging phytostilbenes. In this study, the effect of the addition of 2-hydroxypropyl-ß-cyclodextrin on the levels of phytostilbenes in M. alba callus cultures was investigated. Commercial cyclodextrin was used in the hydrolytic and culture processes of the M. alba callus cultures. The hydrolytic study indicated that 2-hydroxypropyl-ß-cyclodextrin acted as a retardant for stilbenoid hydrolysis. It reduced mulberroside A deglycosylation and stabilised oxyresveratrol. The elicitation result showed that extracellular oxyresveratrol was increased by adding 2-hydroxypropyl-ß-cyclodextrin to the culture media of both free and immobilised M. alba callus (>730-fold and >169-fold, respectively) compared with those of the control. However, the intracellular mulberroside A levels in the treatment groups did not increase compared with those of the control. The results show that the addition of 2-hydroxypropyl-ß-cyclodextrin significantly changed the patterns and levels of the stilbenoids in M. alba callus cultures.

Mulberry Anthocyanin Extract Ameliorates Oxidative Damage in HepG2 Cells and Prolongs the Lifespan of Caenorhabditis elegans through MAPK and Nrf2 Pathways.

Mulberry anthocyanins possess many pharmacological effects including liver protection, anti-inflammation, and anticancer. The aim of this study was to evaluate whether mulberry anthocyanin extract (MAE) exerts beneficial effects against oxidative stress damage in HepG2 cells and Caenorhabditis elegans. In vitro, MAE prevented cytotoxicity, increased glucose consumption and uptake, and eliminated excessive intracellular free radicals in H2O2-induced cells. Moreover, MAE pretreatment maintained Nrf2, HO-1, and p38 MAPK stimulation and abolished upregulation of p-JNK, FOXO1, and PGC-1α that were involved in oxidative stress and insulin signalling modulation. In vivo, extended lifespan was observed in C. elegans damaged by paraquat in the presence of MAE, while these beneficial effects were disappeared in pmk-1 and daf-16 mutants. PMK-1 and SKN-1 were activated after exposure to paraquat and MAE suppressed PMK-1 activation but enhanced SKN-1 stimulation. Our findings suggested that MAE recovered redox status in HepG2 cells and C. elegans that suffered from oxidative stress, which might be by targeting MAPKs and Nrf2.

Purification of a lectin from M. rubra leaves using immobilized metal ion affinity chromatography and its characterization.

Lectins represent a heterogeneous group of proteins/glycoproteins with unique carbohydrate specificity, with wide range of biomedical applications. The multi-step purification protocols generally used for purification of lectin result in a significant reduction in the final yield and activity. In the present study, Morus rubra lectin (MRL) was purified to homogeneity from the leaves using a single-step immobilized metal ion affinity chromatography (IMAC) procedure. The approximate molecular weight of purified MRL resolved as a single band on SDS-PAGE was 52 kDa. Final percentage yield of purified lectin by IMAC was calculated as 74.7 %. Purified MRL was specific to three sugars, galactose, D-galactosamine and N-acetyl-D-galactosamine, and rendered haemagglutination (HA) activity towards different human blood group RBCs. MRL showed stability over a wide range of temperature (up to 80 °C) and pH (4-11). Chelation of the lectin with EDTA did not alter HA which indicates that metal ion is not required for activity. In the presence of Fe(2+), Ca(2+), Zn(2+), Ni(2+), Mn(2+), Na(+) and K(+), HA activity was reduced to 50 %, whereas the presence of trivalent metal ions (Fe3(+) and Al(3+)) and Cu(2+) did not affect the activity. In the presence of Mg(2+) and Hg(2+), only 25 % of HA activity remained.

[Chemical constituents from cell cultures of Morus alba].

The column chromatography on silica gel, Sephadex LH-20 and semi-preparative HPLC were used to separate and purify the compounds from the EtOAc extract of medium and MeOH extract of cell cultures of Morus alba. Eight compounds were isolated. Based on physico-chemical properties and spectroscopic data, their structures were identified as isobavachalcone (1), genistein (2), norartocarpetin (3), albanin A (4), guangsangon E (5), mulberrofuran F (6), chalcomoracin (7), kuwanon J (8). Compounds 3-6 were isolated from the cell cultures of M. alba for the first time.

Localization of mucilaginous polysaccharides in mulberry leaves.

Mulberry tree leaves were shown to have mucilaginous polysaccharides. The extracted water-soluble mucilage was separated into three fractions via a cetylpyridinum chloride complex and purified by anion-exchange chromatography. Five acidic polysaccharides were separated from these fractions, one of which was a major polysaccharide (Mp-3) that was structurally analyzed and used for antibody preparation. The Mp-3 polysaccharide contained rhamnose, galactose, glucose, galacturonic acid, and glucuronic acid in a molar ratio of 1 : 0.2 : 0.5 : 2.3 : 1.5 as constituent monosaccharides. Methylation and gas chromatography-mass spectrometry analysis indicated that the polysaccharide was a rhamnogalacturonan mainly consisting of 1,2,3-linked rhamnose residues, 1,3,4- and 1,4-linked uronic acid residues, and terminal uronic acid residues. Its molecular weight was estimated to be 5.5 x 10(5). Immunohistological observation revealed that the Mp-3 polysaccharide is specifically localized in inner epidermal cells situated in adaxial leaves, and electron microscopy showed that its subcellular location is between the plasma membrane and the cell wall. In young leaves, numerous secretory vesicles were present in a shrunken cytoplasm that was surrounded by fibers. In mature leaves, more than 20% of total epidermal cells were these inner cells in which polysaccharide deposition was significantly increased. The deposits appeared as a rounded electron-dense mass throughout the inner cells by electron microscopy.

Cell wall sheath surrounding calcium oxalate crystals in mulberry idioblasts.

The distribution and ultrastructural features of idioblasts containing calcium oxalate crystals were studied in leaf tissues of mulberry, Morus alba L. In addition to the calcium carbonate crystals formed in epidermal idioblasts, large calcium oxalate crystals were deposited in cells adjacent to the veins and surrounded by a cell wall sheath which had immunoreactivity with an antibody recognizing a xyloglucan epitope. The wall sheath formation indicates exclusion of the mature crystal from the protoplast.

Cytological changes during cell wall sac formation in mulberry idioblasts.

When calcium carbonate crystals are formed in mulberry (Morus abla) idioblasts, they are deposited in newly formed cell wall sacs. The initial cytological events leading to cell wall sac formation were observed in the distal end of young idioblasts and tentatively categorized into four stages. The first indication of formation was the separation of the innermost cell wall layer from the cell wall, which is followed by the deposition of egg-shaped polysaccharide on the inner cell wall surface. The size of the deposit area increased, while the thickness of the cell wall significantly decreased during the next stage. Finally, the condensed cellulosic lamella was invaginated into the deposition area, resulting in the formation of an elongated cell wall sac. The internal cell wall sac was composed of numerous fibers with different morphologies. Application of gelatin-methenamine-silver staining allowed us to observe the spatial distribution of cellulosic polysaccharides as electron-dense images.

Calcium carbonate deposition in a cell wall sac formed in mulberry idioblasts.

Although calcium carbonate is known to be a common biomineral in plants, very little attention has been given to the biological control of calcium carbonate deposition. In mulberry leaves, a subcellular structure is involved in mineral deposition and is described here by a variety of cytological techniques. Calcium carbonate was deposited in large, rounded idioblast cells located in the upper epidermal layer of mulberry leaves. Next to the outmost region ("cap") of young idioblasts, we found that the inner cell wall layer expanded to form a peculiar outgrowth, named cell wall sac in this report. This sac grew and eventually occupied the entire apoplastic space of the idioblast. Inside the mature cell wall sac, various cellulosic membranes developed and became the major site of Ca carbonate deposition. Concentrated Ca2+ was pooled in the peripheral zone, where small Ca carbonate globules were present in large numbers. Large globules were tightly packed among multiple membranes in the central zone, especially in compartments formed by cellulosic membranes and in their neighboring membranes. The maximum Ca sink capacity of a single cell wall sac was quantified using enzymatically isolated idioblasts as approximately 48 ng. The newly formed outgrowth in idioblasts is not a pure calcareous body but a complex cell wall structure filled with substantial amounts of Ca carbonate crystals.

[Research on microstructure of caulis herb].

OBJECTIVE: To provide reference for the microscopic identification of caulis herb. METHOD: Systematic arrangement and comparative studies were carried out on the microstructure of medicinal herb of different groups and shapes. RESULT: The rule and characteristics of the microstructure of caulis herb were discussed, and the sorting search list of the microstructure of common caulis herb was established. CONCLUSION: The microstructure characteristics of caulis herb, as the reference of the microscopic identification, are of research value.

[Studies on the microstructure of cortex herbs].

OBJECTIVE: Provide a basis for the micro-identification of cortex herbs. METHOD: The microstructure characteristics of different types and positions of cortex herbs have been compared, studied, systematized and arranged. RESULT: The characteristic and the rule of the common micro-identification of cortex herbs inquiring table have been compiled. CONCLUSION: The microstructure characteristics of cortex herbs as an important basis for the micro-identification of cortex herbs study value.

[Microscopic identification on the Folium Mori and the leaves of its allied species from Shandong].

The Folium Mori and the leaves of its allied species Morus australis Poir., M. mongolica Schneid. from Shandong were identified. The result shows that they are identified easily and accurately according to epidermis, trichomes and blade.