Žinokite, kas yra NMN gamintojas | BONTAC

Žinokite, kas yra NMN gamintojas | BONTAC

NMN taip pat yra žmogaus organizme ir yra žaliava. NMN miltelių gamyba naudojant visą fermentinę technologiją reiškia, kad biologiniai fermentai naudojami kaip katalizatoriai gamybos procese, kuo labiau imituojant žmogaus kūno vidinę fiziologinę aplinką. NMN gamintojai siekia gaminti tokiu būdu ne tik didelio grynumo, bet ir turi didelį gamybos pajėgumą dėl didelio žaliavų naudojimo.
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NMNH privalumai

NMNH: 1. "Bonzyme" viso fermentavimo metodas, nekenksmingas aplinkai, be kenksmingų tirpiklių likučių, gaminantis miltelius. 2. Bontac yra pirmasis gamintojas pasaulyje, gaminantis NMNH miltelius didelio grynumo, stabilumo lygiu. 3. Išskirtinė "Bonpure" septynių pakopų valymo technologija, didelis grynumas (iki 99%) ir NMNH miltelių gamybos stabilumas 4. Savarankiškai valdomos gamyklos ir gavo daugybę tarptautinių sertifikatų, užtikrinančių aukštos kokybės ir stabilų NMNH miltelių produktų tiekimą 5. Teikite vieno langelio produkto sprendimo pritaikymo paslaugą

NADH privalumai

NADH: 1. Bonzyme viso fermento metodas, ekologiškas, be kenksmingų tirpiklių likučių 2. Išskirtinė bonpure septynių pakopų gryninimo technologija, grynumas didesnis kaip 98 % 3. Speciali patentuota proceso kristalų forma, didesnis stabilumas 4. Gavo daugybę tarptautinių sertifikatų, užtikrinančių aukštą kokybę 5. 8 vidaus ir užsienio NADH patentai, pirmaujantys pramonėje 6. Teikite vieno langelio produkto sprendimo pritaikymo paslaugą

NAD privalumai

NAD:  1. "Bonzyme" viso fermentavimo metodas, nekenksmingas aplinkai, be kenksmingų tirpiklių likučių 2. Stabilus 1000+ įmonių tiekėjas visame pasaulyje 3. Unikali "Bonpure" septynių pakopų gryninimo technologija, didesnis produkto kiekis ir didesnis konversijos rodiklis 4. Užšaldymo džiovinimo technologija, užtikrinanti stabilią produkto kokybę 5. Unikali kristalų technologija, didesnis produkto tirpumas 6. Savarankiškai valdomos gamyklos ir gavo daugybę tarptautinių sertifikatų, užtikrinančių aukštą kokybę ir stabilų produktų tiekimą

MNM privalumai

NMN:  1. "Bonzimas"Viso fermentavimo metodas, nekenksmingas aplinkai, be kenksmingų tirpiklių likučių 2. Išskirtinė "Bonpure" septynių pakopų valymo technologija, didelis grynumas (iki 99,9%) ir stabilumas 3. Pirmaujanti pramonės technologija: 15 vietinių ir tarptautinių NMN patentų 4. Savarankiškai valdomos gamyklos ir gavo daugybę tarptautinių sertifikatų, užtikrinančių aukštą kokybę ir stabilų produktų tiekimą 5. Daugkartiniai tyrimai in vivo rodo, kad Bontac NMN yra saugus ir veiksmingas 6. Teikite vieno langelio produkto sprendimo pritaikymo paslaugą 7. Garsios Harvardo universiteto Davido Sinclairo komandos NMN žaliavų tiekėjas

about us

Mes turime geriausius sprendimus jūsų verslui

Bontac Bio-Engineering (Shenzhen) Co., Ltd. (hereafter referred to as BONTAC) is a high-tech enterprise established in July 2012. BONTAC integrates R&D, production and sales, with enzyme catalysis technology as the core and coenzyme and natural products as main products. There are six major series of products in BONTAC, involving coenzymes, natural products, sugar substitutes, cosmetics, dietary supplements and medical intermediates.

As the leader of the global NMN industry, BONTAC has the first whole-enzyme catalysis technology in China. Our coenzyme products are widely used in health industry, medical & beauty, green agriculture, biomedicine and other fields. BONTAC adheres to independent innovation, with more than 170 išradimų patentų. Different from the traditional chemical synthesis and fermentation industry, BONTAC has advantages of green low-carbon and high-value-added biosynthesis technology. What’s more, BONTAC has established the first coenzyme engineering technology research center at the provincial level in China which also is the sole in Guangdong Province.

In the future, BONTAC will focus on its advantages of green, low-carbon and high-value-added biosynthesis technology, and build ecological relationship with academia as well as upstream/downstream partners, continuously leading the synthetic biological industry and creating a better life for human beings.

Sužinoti daugiau, sužinok daugiau

NMN miltelių gamybos metodai, kuriuos naudoja gamintojai

Paprastai NMN milteliai paprastai gaminami cheminės ar fermentinės sintezės arba fermentacijos biosintezės būdu. Visiems trims metodams yra privalumų ir trūkumų.
Chemical synthesis is expensive and labor intensive, and all raw ingredients used are categorized as “unnatural,” i.e., not from biological systems. There are, however, some advantages from the manufacturer’s perspective. The yield is well suited to mass NMN powder production, and all of those unnatural raw ingredients can be carefully controlled. But there are a number of drawbacks as well. Some of the solvents used in the manufacturing process are seriously bad from an environmental standpoint, and impurities and by-products can be challenging to remove from the finished product – that’s seriously bad for the consumer.
Enzymatic production of NMN powder, on the other hand, is considered a “green preparation method.” Like the chemical route, it’s pricey, but it offers a higher yield and impressively high purity. The finished NMN ticks all the boxes – stable, easily absorbed, lightweight, low density, and a low molecular structure.
Fermentacija taip pat buvo ištirta kaip NMN gamybos būdas, tačiau derlius, nors ir aukštos kokybės, yra gana bedugnis, todėl daugelis papildų kompanijų gana protingai žiūri į kitus, efektyvesnius procesus.

NMN miltelių gamybos metodai, kuriuos naudoja gamintojai

Būkite atsargūs su apgaulingais NMN produktais rinkoje

According to recent industrial report, only several products from worldwide NMN manufacturers came close to meeting label claim and contain not enough NMN. Almost products performed better, having at least 88% of the label claim up to small overages. A lone 250 mg product was identified as BRL. In sum, ChromaDex said that 64% of the products tested contained less than 1% of the stated amount of the active ingredient. which should give consumers pause. While this is a limited snapshot of the vast NMN finished product landscape. it does provide a glimpse into the high variability   of product quality that is available. The majority of the products may purchase online contain such a small amount of NMN that there would be no clinical benefits achieved from the dose. Another concern with these adulterated products is that the actual contents are not known and could pose a risk to the user the company said in a statement.

Būkite atsargūs su apgaulingais NMN produktais rinkoje

BONTAC NMN produkto savybės ir privalumai

1、“Bonzyme”Whole-enzymatic method, environmental-friendly, no harmful solvent residues manufacturing powder 
2、Exclusive“Bonpure”seven-step purification technology, high purity(up to 99.9%) and stability of production of NMN powder 
3、Pramonėje pirmaujanti technologija: 15 vietinių ir tarptautinių NMN patentų
4、 Savarankiškos gamyklos ir gavo daugybę tarptautinių sertifikatų, užtikrinančių aukštos kokybės ir stabilų NMN miltelių produktų tiekimą  
5、Daugkartiniai in vivo tyrimai rodo, kad Bontac NMN milteliai yra saugūs ir veiksmingi
6、Teikite vieno langelio produkto sprendimų pritaikymo paslaugą
7、NMN žaliavos tiekėjas garsios David Sinclair komandos iš Harvardo universiteto.

BONTAC NMN produkto savybės ir privalumai
Vartotojo apžvalgos

Ką sako vartotojai apie BONTAC

BONTAC yra patikimas partneris, su kuriuo dirbame jau daugelį metų. Jų koenzimo grynumas yra labai didelis. Jų COA gali pasiekti palyginti aukštus bandymų rezultatus.

Priekis

I discovered BONTAC in 2014 because David's article in cell about NAD and NMN related showed that he used BONTAC's NMN for his experimental material. Then we found them in China. After so many years of cooperation, I think it is a very good company.

Hanks

I think green, healthy and high purity are the advantages of BONTAC's products compared with others. I still work with them to this day.

Phillip

In 2017, we chose BONTAC's coenzyme, during which our team encountered many technical problems and consulted their technical team, which were able to give us good solutions. Their products are shipped very fast and they work more efficiently.

Gobbsasas
Dažnai užduodamas klausimas

Ar turite klausimų?

1.Žaliavų gamybos procesas
Bioenzimo katalizė yra populiarus gamybos būdas pramonėje. Jis turi aukštą slenkstį, o keli pagrindiniai kataliziniai fermentai yra brangūs ir sudaro apie 80% visų gamybos proceso sąnaudų, tačiau tai taip pat yra saugiausias ir efektyviausias gamybos būdas. Gaminant NMN biofermentų katalizės būdu, maistinių žaliavų naudojimas yra svarbi proceso dalis, siekiant užtikrinti produktų saugą ir užtikrinti, kad būtų laikomasi standartų.
2. Aukšti gamybos sąlygų standartai
Gamybos sąlygos - tai darbo jėgos suvartojimo standartas, reikalingas kvalifikuotiems vieneto produktams užbaigti tam tikromis gamybos organizavimo ir gamybos technologijos sąlygomis. Yra reguliavimo institucijų išduoti sertifikatai, tokie kaip cGMP Jungtinėse Amerikos Valstijose, TGA Australijoje, GMP Japonijoje ir kt.
3.Aukšti produktų testavimo standartai.
Produkto bandymui reikalingi patikimi bandymo metodai ir reagentai, naudojami visame gamybos procese. Tai ne tik galutinio produkto tikrinimo standartai, bet ir tarpiniai kontrolės etapai, įskaitant veikliųjų medžiagų bandymus, sunkiųjų metalų, pvz., švino, arseno ir gyvsidabrio, bandymus ir patogeninių bakterijų, mikroorganizmų ir šalutinių perdirbimo produktų tyrimus. 
NMN produktų atveju dažniausiai naudojamas veikliųjų medžiagų kiekio tyrimo metodas yra efektyvi, tiksli ir tiksli efektyvioji skysčių chromatografija (HPLC). Skirtingiems gamintojams reagentų bandymo standartai yra skirtingi. Griežti gamintojai kaip kontrolę pirks didelio grynumo, analitiškai grynus reagentus iš trečiųjų šalių standartų bendrovių.
4.Saugos vertinimas
Kalbant apie palyginti naujas žaliavas, pvz., NMN, nepakanka, kad vartotojai vertintų produkto saugą vien tik iš prekybininko pusės. Šiuo metu trečiosios šalies autoritetinga vertinimo ataskaita yra ypač svarbi.
Šiuo metu yra dvi bendrosios saugumo vertinimo ataskaitos: viena yra toksikologinio vertinimo ataskaita, o kita – saugumo vertinimo ataskaita. Kinijoje toksikologinio vertinimo ataskaitos paprastai sudaro daugumą. Tačiau vis dar yra nedaug NMN įmonių, kurios gali išduoti tokias ataskaitas
5.Sandėliavimas ir pakavimas
NMN paprastai laikomi sandariuose induose iki 12 mėnesių. Jei jis gali būti laikomas 24 mėnesius su nereikšmingais grynumo pokyčiais, NMN stabilumas yra labai patikimas. Šiuo metu labiau paplitusios pakavimo medžiagos yra pet arba hope, kurios yra farmacinės pakavimo medžiagos. Jie yra netoksiški, bekvapiai, lengvi, nešiojami ir efektyviai izoliuoja orą ir drėgmę.

NMN miltelių saugumas negali būti įvertintas, nes dar nebaigti būtini klinikiniai ir toksikologiniai tyrimai, kuriais būtų galima nustatyti rekomenduojamas saugias koncentracijas ilgalaikiam vartojimui. Nepaisant to, jų saugumas ir veiksmingumas yra neaiškūs ir nepatikimi, nes dauguma jų nebuvo pagrįsti griežtais moksliniais ikiklinikiniais ir klinikiniais tyrimais. Šis klausimas iškilo, nes gamintojai nesiryžta mokėti už mokslinius tyrimus ir klinikinius tyrimus dėl galimos mažesnės pelno maržos, ir nėra įgaliotos agentūros, kuri reguliuotų NMN produktus, nes jie dažnai parduodami kaip funkcinis maisto produktas, o ne griežtai reguliuojamas terapinis vaistas. Todėl vartotojų teisių gynimo grupės pareikalavo griežtesnio patvirtinimo proceso, prašydamos reguliavimo agentūrų nustatyti standartus ir apribojimus, susijusius su prekyba anti-senėjimo sveikatos produktais, atsižvelgiant į vartotojų saugą, sveikatą ir gerovę. NMN neturėtų būti laikomas panacėja vyresnio amžiaus žmonėms, nes NAD koncentracijos padidinimas, kai to nereikia, gali turėti tam tikrą žalingą poveikį. Todėl NMN papildų dozę ir dažnį reikia atidžiai nustatyti, atsižvelgiant į su amžiumi susijusio trūkumo tipą ir visus kitus žmonių sveikatos sutrikimus. Kiti NAD pirmtakai buvo ištirti siekiant nustatyti veiksmingumą įvairiems su amžiumi susijusiems trūkumams ir jie naudojami esant tam tikriems trūkumams tik po to, kai įrodoma, kad jie yra veiksmingi ir saugūs naudoti. Todėl tas pats principas turėtų būti taikomas ir NMN

Pirmiausia patikrinkite gamyklą. Po tam tikro patikrinimo NMN suprato, kad tiesiogiai susiduria su vartotojais, daugiau dėmesio skiria prekės ženklo kūrimui. Todėl geram prekės ženklui kokybė yra svarbiausias dalykas, o pirmas dalykas, kurį reikia kontroliuoti žaliavų kokybei, yra gamyklos patikrinimas. Bontac kompanija iš tikrųjų gamina aukštos kokybės NMN miltelius su SGS katerijomis. Antra, išbandomas grynumas. Grynumas yra vienas iš svarbiausių NMN miltelių parametrų. Jei negalima užtikrinti didelio grynumo NMN, likusios medžiagos greičiausiai viršys atitinkamus standartus. Kaip matyti iš pridedamų sertifikatų, Bontac gaminami NMN milteliai pasiekia 99,9 % grynumą. Galiausiai, norint tai įrodyti, reikalingas profesionalus bandymų spektras. Įprasti organinio junginio struktūros nustatymo metodai yra branduolinio magnetinio rezonanso spektroskopija (NMR) ir didelės skiriamosios gebos masių spektrometrija (HRMS). Paprastai analizuojant šiuos du spektrus, galima iš anksto nustatyti junginio struktūrą.

Mūsų atnaujinimai ir tinklaraščio įrašai

Naujausi tyrimai įrodo: kofermentas NAD+ gali sustiprinti naviko imunitetą! Kinijos mokslų akademijos eksperto komentaras

On August 10, 2021, researchers from Shanghai University of Science and Technology published an article titled NAD+ supplement potentiates tumor killing function by rescuing defective TUBBY-mediated NAMPT transcription in tumor infiltrated T cells in Cell Reports, revealing that NAD+ in supplemented during CAR-T therapy and immune checkpoint inhibitor therapy, it can improve the anti-tumor activity of T. At present, the supplementary precursor of NAD+, as a nutritional product,has been verified for human consumption safety.This achievement provides a simply and feasible new method for improving the anti-tumor activity of T cells. Cancer immunotherapies including the adoptive transfer of naturally occurring tumor-infiltrating lymphocytes (TILs) and genetically engineered T cells, as well as the use of immune checkpoint blockade (ICB) to boost the function of T cells, have emerged as promising approaches to achieve durable clinical responses of otherwise treatment-refractory cancers (Lee et al., 2015; Rosenberg and Restifo, 2015; Sharma and Allison, 2015). Although immunotherapies have been successfully used in the clinic, the number of patients benefiting from them is still limited (Fradet et al., 2019; Newick et al., 2017). Tumor microenvironment (TME)-related immunosuppression has emerged as the major reason for low and/or no response to both immunotherapies (Ninomiya et al., 2015; Schoenfeld and Hellmann, 2020). Therefore, efforts to investigate and overcome TME-related limitations in immune therapies are of great urgency. The fact that immune cells and cancer cells share many fundamental metabolic pathways implies an irreconcilable competition for nutrients in TME (Andrejeva and Rathmell, 2017; Chang et al., 2015). During uncontrolled proliferation, cancer cells hijack alternative pathways for more rapid metabolite generation (Vander Heiden et al., 2009). As a consequence, nutrient depletion, hypoxia, acidity, and generation of metabolites that can be toxic in the TME may hinder successful immunotherapy (Weinberg et al., 2010). Indeed, TILs often experience mitochondrial stress within growing tumors and become exhausted (Scharping et al., 2016). Interestingly, multiple studies also indicate that metabolic changes in TME could re-shape T cell differentiation and functional activity (Bailis et al., 2019; Chang et al., 2013; Peng et al., 2016). All these evidences inspired us to hypothesize that metabolic reprogramming in T cells might rescue them from a stressed metabolic environment, thereby reinvigorating their anti-tumor activity (Buck et al., 2016; Zhang et al., 2017). In this current study, by integrating both genetic and chemical screens, we identified that NAMPT, a key gene involved in NAD+ biosynthesis, was essential for T cell activation. NAMPT inhibition led to robust NAD+ decline in T cells, thereby disrupting glycolysis regulation and mitochondrial function, blocking ATP synthesis, and dampening the T cell receptor (TCR) downstream signaling cascade. Building on the observation that TILs have relatively lower NAD+ and NAMPT expression levels than T cells from peripheral blood mononuclear cells (PBMCs) in ovarian cancer patients, we performed genetic screening in T cells and identified that Tubby (TUB) is a transcription factor for NAMPT. Finally, we applied this basic knowledge in the (pre) clinic and showed very strong evidence that supplementation with NAD+ dramatically improves the anti-tumor killing activity both in adoptively transferred CAR-T cells therapy and immune check point blockade therapy, indicating their promising potential for targeting NAD+ metabolism to better treat cancers. 1.NAD+ regulates the activation of T cells by affecting energy metabolism After antigen stimulation, T cells undergo metabolic reprogramming, from mitochondrial oxidation to glycolysis as the main source of ATP. While maintaining sufficient mitochondrial functions to support cell proliferation and effector functions.Given that NAD+ is the main coenzyme for redox, the researchers verified the effect of NAD+ on the level of metabolism in T cells through experiments such as metabolic mass spectrometry and isotope labeling. The results of in vitro experiments show that NAD+ deficiency will significantly reduce the level of glycolysis, TCA cycle and electron transport chain metabolism in T cells. Through the experiment of replenishing ATP, the researchers found that the lack of NAD+ mainly inhibits the production of ATP in T cells, thereby reducing the level of T cell activation. 2.The NAD+ salvage synthesis pathway regulated by NAMPT is essential for T cell activation The metabolic reprogramming process regulates the activation and differentiation of immune cells. Targeting T cell metabolism provides an opportunity to modulate the immune response in a cellular way. Immune cells in the tumor microenvironment, their own metabolic level will also be correspondingly affected. The researchers in this article have discovered the important role of NAMPT in the activation of T cells through genome-wide sgRNA screening and metabolism-related small molecule inhibitor screening experiments. Nicotinamide adenine dinucleotide (NAD+) is a coenzyme for redox reactions and can be synthesized through the salvage pathway, de novo synthesis pathway, and Preiss-Handler pathway. The NAMPT metabolic enzyme is mainly involved in the NAD+ salvage synthesis pathway. Analysis of clinical tumor samples found that in tumor-infiltrating T cells, their NAD+ levels and NAMPT levels were lower than other T cells. Researchers speculate that NAD+ levels may be one of the factors that affect the anti-tumor activity of tumor-infiltrating T cells. 3.Supplement NAD+ to enhance the anti-tumor activity of T cells Immunotherapy has been exploratory research in cancer treatment, but the main problem is the best treatment strategy and the effectiveness of immunotherapy in the overall population. Researchers want to study whether enhancing the activation ability of T cells by supplementing NAD+ levels can enhance the effect of T cell-based immunotherapy. At the same time, in the anti-CD19 CAR-T therapy model and anti-PD-1 immune checkpoint inhibitor therapy model, it was verified that supplementation of NAD+ significantly enhanced the tumor-killing effect of T cells. The researchers found that in the anti-CD19 CAR-T treatment model, almost all mice in the CAR-T treatment group supplemented with NAD+ achieved tumor clearance, while the CAR-T treatment group without NAD+ supplemented only about 20 % Of mice achieved tumor clearance. Consistent with this, in the anti-PD-1 immune checkpoint inhibitor treatment model, B16F10 tumors are relatively tolerant to anti-PD-1 treatment, and the inhibitory effect is not significant. However, the growth of B16F10 tumors in the anti-PD-1 and NAD+ treatment group could be significantly inhibited. Based on this, NAD+ supplementation can enhance the anti-tumor effect of T cell-based immunotherapy. 4.How to supplement NAD+ The NAD+ molecule is large and cannot be directly absorbed and utilized by the human body. The NAD+ directly ingested orally is mainly hydrolyzed by brush border cells in the small intestine. In terms of thinking, there is indeed another way to supplement NAD+, which is to find a way to supplement a certain substance so that it can synthesize NAD+ autonomously in the human body. There are three ways to synthesize NAD+ in the human body: Preiss-Handler pathway, de novo synthesis pathway and salvage synthesis pathway. Although the three ways can synthesize NAD+, there is also a primary and secondary distinction. Among them, the NAD+ produced by the first two synthetic pathways only accounts for about 15% of the total human NAD+, and the remaining 85% is achieved through the way of remedial synthesis. In other words, the salvage synthesis pathway is the key to the human body to supplement NAD+. Among the precursors of NAD+, nicotinamide (NAM), NMN and nicotinamide ribose (NR) all synthesize NAD+ through a salvage synthesis pathway, so these three substances have become the body's choice for supplementing NAD+. Although NR itself has no side effects, in the process of NAD+ synthesis, most of it is not directly converted into NMN, but needs to be digested into NAM first, and then participate in the synthesis of NMN, which still cannot escape the limitation of rate-limiting enzymes. Therefore, the ability to supplement NAD+ through oral administration of NR is also limited . As a precursor for supplementing NAD+, NMN not only bypasses the restriction of rate-limiting enzymes, but is also absorbed very quickly in the body and can be directly converted into NAD+. Therefore, it can be used as a direct, rapid and effective method to supplement NAD+. Expert Reviews: Xu Chenqi (Excellence and Innovation Center of Molecular Cell Science, Chinese Academy of Sciences, Immunology Research Expert) Cancer treatment is a problem in the world. The development of immunotherapy has made up for the limitations of traditional cancer treatment and expanded the treatment methods of doctors. Cancer immunotherapy can be divided into immune checkpoint blocking therapy, engineered T cell therapy, tumor vaccine, etc. These treatment methods have played a certain role in the clinical treatment of cancer. At the same time, this also makes the current focus of immunotherapy research on how to further enhance the effect of immunotherapy and expand the beneficiaries of immunotherapy.

NMN papildymas, siekiant apsaugoti osteoblastus nuo LPS sukelto uždegimo

Introduction It has been reported that infection with Gram-negative bacteria can disrupt the osteogenic differentiation. Notably, nicotinamide mononucleotide (NMN) protects against osteogenesis from inflammation caused by Gram-negative bacterial infections possibly via regulating the Wnt/β-catenin signaling pathway. About osteogenic differentiation Osteogenic differentiation refers to the formation process of osteoblasts from bone marrow mesenchymal stem/stromal (a.k.a. skeletal stem) cells and bone progenitor cells, which is a key event in bone formation during development, fracture repair, and tissue maintenance. Abnormalities in the process of osteogenic differentiation may disrupt physiological bone homeostasis, which is strongly associated with a variety of bone-related diseases such as osteoporosis, bone tumors, and osteoarthritis, making negative impacts upon fracture healing and repair of bone tissue defects. LPS-induced suppression of osteogenesis Lipopolysaccharide (LPS) is a component of the cell wall in Gram-negative bacteria, which is intensively applied to mimic Gram-negative bacterial infections in cell and animal models. LPS can hamper osteogenic differentiation of pre-osteoblasts MC3T3-E1 by diminishing the expression of mRNA markers (Alp1, Bglap, Runx2, and Sp7), ALP activity, and mineralization. Partial protection of NMN against the LPS-induced suppression of osteogenesis LPS-induced inhibition of osteogenic differentiation in MC3T3-E1 cells is partially offset by 1 mM of NMN. Concretely, the mRNA levels of Alp1, Bglap, and Sp7 in cells co-treated with NMN and LPS are relatively higher than those in cells treated solely with LPS. Furthermore, ALP activity and mineralization repressed by LPS are restored in the presence of NMN (1 mM). Potential involvement of the Wnt/β-catenin signaling pathway in NMN's effect on osteogenesis Wnt/β-catenin signaling pathway has been attested to play a vital role in osteogenesis by promoting bone formation and inhibiting bone resorption. In cells treated with LPS, β-catenin is localized in the cytoplasm rather than the nucleus. Following NMN treatment, β-catenin is translocated to the nucleus, similar to what occurred in response to the treatment of osteogenic induction medium (OIM). Meanwhile, the fluorescence intensity of β-catenin is restored upon NMN treatment. Conclusion NMN has a protective role against LPS-induced osteogenesis disruption, which is potentially achieved by the Wnt/β-catenin signaling pathway. NMN may function as a viable therapeutic strategy to preserve bone homeostasis in elderly and immunocompromised patients. Reference Kang I, Koo M, Jun JH, Lee J. Effect of nicotinamide mononucleotide on osteogenesis in MC3T3-E1 cells against inflammation-induced by lipopolysaccharide. Clin Exp Reprod Med. Published online April 11, 2024. doi:10.5653/cerm.2023.06744 BONTAC NMN BONTAC is the pioneer of NMN industry and the first manufacturer to launch NMN mass production, with the first whole-enzyme catalysis technology around the world. At present, BONTAC has become the leading enterprise in niche areas of coenzyme products. Our services and products have been highly recognized by global partners. Furthermore, BONTAC has the first national and the only provincial independent coenzyme engineering technology research center in Guangdong, China. The coenzyme products of BOMNTAC are widely used in fields such as nutritional health, biomedicine, medical beauty, daily chemicals and green agriculture. Disclaimer This article is based on the reference in the academic journal. The relevant information is provided for sharing and learning purposes only, and does not represent any medical advice purposes. If there is any infringement, please contact the author for deletion. The views expressed in this article do not represent the position of BONTAC. Under no circumstances will BONTAC be held responsible or liable in any way for any claims, damages, losses, expenses, costs or liabilities whatsoever (including, without limitation, any direct or indirect damages for loss of profits, business interruption or loss of information) resulting or arising directly or indirectly from your reliance on the information and material on this website.

Medžiagų apykaitą skatinančių papildų galios atrakinimas: BONTAC vadovas

Unlocking the Power of Metabolism-Boosting Supplements: A Guide by BONTAC In the realm of health and wellness, the demand for high-quality metabolism-boosting supplements is steadily rising. At BONTAC, we understand the importance of metabolism-boosting supplements in optimizing cellular function and overall well-being. As a leader in the industry of metabolism, we are committed to providing exceptional products that meet the evolving needs of our customers. At BONTAC, we possess a profound comprehension of the significance of metabolism-boosting supplements in optimizing bodily functions. As pioneers in this industry, we remain steadfast in our commitment to delivering unparalleled products that cater to the dynamic and evolving requirements of our esteemed clientele. The Science Behind metabolism-boosting Supplements   When it comes to metabolism-boosting supplements, it's crucial to grasp the intricate workings of metabolism and its profound impact on our health. At BONTAC, we harness the power of cutting-edge technology to develop metabolism-boosting supplements that target cellular rejuvenation and vitality. Our products are meticulously crafted to support optimal metabolism-boosting function and promote overall wellness. Benefits of BONTAC metabolism-boosting Supplements   At BONTAC, we take pride in offering a range of excellent metabolism-boosting supplements that are designed to meet the unique needs of our customers. One of our flagship products is our NMN Powder, a premium supplement that enhances cellular vitality and supports metabolism-boosting processes. Additionally, our NAD+ supplements play a pivotal role in maintaining optimal metabolism-boosting function and promoting overall health. Technical Support and Innovation   Our team at BONTAC is dedicated to providing top-notch technical support to ensure that our customers receive the best possible guidance and assistance. We are committed to staying at the forefront of technological innovation in the field of metabolism-boosting supplements, continuously seeking new ways to enhance our product offerings and improve customer satisfaction. Business Coverage and Product Characteristics   With a strong focus on technical innovation and product excellence, BONTAC has established a wide-reaching business coverage that spans various industries, including health, beauty, and biomedicine. Our products are known for their exceptional quality, purity, and effectiveness, making them a preferred choice for customers around the world. Conclusion In conclusion, at BONTAC, we are dedicated to revolutionizing the world of metabolism-boosting supplements through our commitment to excellence, technical innovation, and customer satisfaction. Our range of premium products, backed by top-tier technical support, are designed to help you achieve optimal metabolism-boosting function and lead a healthier, more vibrant life. Join us on this journey towards better health and vitality with BONTAC's exceptional metabolism-boosting supplements.

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