Hematopoietic stem cell and other immune cell by curcumin. (A) CD

July 12, 2017

Hematopoietic stem cell and other immune cell by curcumin. (A) CD34- or c-Kit-expressing hematopoietic stem cell, (B) CD11c-expressing dendritic cells, and (C) NK1.1-expressing natural 10781694 killer cell populations among splenocytes and bone marrow cells were analyzed by flow cytomertry. (TIF)Figure S4 Analysis of B cell subset after BMT. Absolute number of B cell subpopulation among B220+ B cells were shown in BMT mice and were compared between vehicle- and curcumintreated groups. (TIF)Author ContributionsConceived and designed the experiments: MLC CWY HYK. Performed the experiments: MJP SHL EJY JKM. Analyzed the data: MJP SGC SHP. Contributed reagents/materials/analysis tools: SGC. Wrote the paper: MJP SJM. Commented and reviewed the manuscript: SGC CWY SHP HYK MLC.Analysis of immune reconstitution after BMT. (A) Splenocytes and CD4+ T cells of BMT mice tranaplanted with vehicle- and curcumin-treated splenocytes originate from donor cells expressing H-2kb. (B) Absolute number of CD4+ and CD8+ T cells were similar between mice transplanted with vehicle- and curcumin-treated splenocytes. (TIF)Figure S
Nicotinamide Adenine Dinucleotide (NAD) is an essential molecule to cells. As a cofactor in redox reactions, NAD regulates the metabolism and energy production and, as a substrate for NAD-consuming enzymes such as poly(ADP-ribose) 16985061 polymerases (PARPs) and sirtuins, NAD is involved in DNA repair, transcriptional silencing and cell survival [1]. To maintain adequate NAD levels, several routes are used for NAD synthesis that depend on distinct precursors: de novo pathways synthesize NAD from tryptophan or aspartic acid whereas salvage pathways recycle NAD from nicotinamide (Nam), nicotinic acid (Na) and their ribosides [2?]. The nicotinamide salvage pathway is the major source of intracellular NAD in humans [5,6] and is also required for growth in several microorganisms [7?0]. NAD salvage from Nam is a two- or four-step reaction, in which the rate-limiting enzymes and functional homologues are, respectively, nicotinamide phosphoribosyltransferases (NAMPTs) and nicotinamidases (PNCs) [11?13]. In humans, NAMPT is widely studied due to its involvement in inflammation and disease such as cancer [14,15]. In contrast, humans lack nicotinamidase but expression of the Drosophila Pnc protects human neuronal cells from death originated by oxidative stress [16]. Moreover, an increased Pnc1 and sirtuin activity confers protection to proteotoxic stress in yeast and C. elegans [17,18]. The yeast Pnc1 is a biomarker of stress and a regulator of sirtuin activity [11,18], and thus, most studies in yeast andinvertebrates have focused in the link between these enzymes and aging [16,19]. Notwithstanding, despite their importance to major cellular processes, there is a poor functional characterization of nicotinamidases [20,21] and their role in infection has been less explored [7,8,22]. NAMPTs and PNCs act as regulators of enzymes from similar pathways, coordinating the overall metabolism and stress 11089-65-9 responses [23]. Moreover, both are pharmacologically relevant. NAMPT inhibitors are being used in get ZK-36374 clinical trials as anti-cancer agents [24?7] and nicotinamidases are attractive targets to the development of drugs for infectious diseases and anti-parasitic therapies [7,8,22,28?0]. NAMPTs and PNCs do not co-occur in all organisms and, until very recently, lineages with both NAMPT and PNC had been only found in bacteria and algae [30?2]. NAMPT was thought to be absent from in.Hematopoietic stem cell and other immune cell by curcumin. (A) CD34- or c-Kit-expressing hematopoietic stem cell, (B) CD11c-expressing dendritic cells, and (C) NK1.1-expressing natural 10781694 killer cell populations among splenocytes and bone marrow cells were analyzed by flow cytomertry. (TIF)Figure S4 Analysis of B cell subset after BMT. Absolute number of B cell subpopulation among B220+ B cells were shown in BMT mice and were compared between vehicle- and curcumintreated groups. (TIF)Author ContributionsConceived and designed the experiments: MLC CWY HYK. Performed the experiments: MJP SHL EJY JKM. Analyzed the data: MJP SGC SHP. Contributed reagents/materials/analysis tools: SGC. Wrote the paper: MJP SJM. Commented and reviewed the manuscript: SGC CWY SHP HYK MLC.Analysis of immune reconstitution after BMT. (A) Splenocytes and CD4+ T cells of BMT mice tranaplanted with vehicle- and curcumin-treated splenocytes originate from donor cells expressing H-2kb. (B) Absolute number of CD4+ and CD8+ T cells were similar between mice transplanted with vehicle- and curcumin-treated splenocytes. (TIF)Figure S
Nicotinamide Adenine Dinucleotide (NAD) is an essential molecule to cells. As a cofactor in redox reactions, NAD regulates the metabolism and energy production and, as a substrate for NAD-consuming enzymes such as poly(ADP-ribose) 16985061 polymerases (PARPs) and sirtuins, NAD is involved in DNA repair, transcriptional silencing and cell survival [1]. To maintain adequate NAD levels, several routes are used for NAD synthesis that depend on distinct precursors: de novo pathways synthesize NAD from tryptophan or aspartic acid whereas salvage pathways recycle NAD from nicotinamide (Nam), nicotinic acid (Na) and their ribosides [2?]. The nicotinamide salvage pathway is the major source of intracellular NAD in humans [5,6] and is also required for growth in several microorganisms [7?0]. NAD salvage from Nam is a two- or four-step reaction, in which the rate-limiting enzymes and functional homologues are, respectively, nicotinamide phosphoribosyltransferases (NAMPTs) and nicotinamidases (PNCs) [11?13]. In humans, NAMPT is widely studied due to its involvement in inflammation and disease such as cancer [14,15]. In contrast, humans lack nicotinamidase but expression of the Drosophila Pnc protects human neuronal cells from death originated by oxidative stress [16]. Moreover, an increased Pnc1 and sirtuin activity confers protection to proteotoxic stress in yeast and C. elegans [17,18]. The yeast Pnc1 is a biomarker of stress and a regulator of sirtuin activity [11,18], and thus, most studies in yeast andinvertebrates have focused in the link between these enzymes and aging [16,19]. Notwithstanding, despite their importance to major cellular processes, there is a poor functional characterization of nicotinamidases [20,21] and their role in infection has been less explored [7,8,22]. NAMPTs and PNCs act as regulators of enzymes from similar pathways, coordinating the overall metabolism and stress responses [23]. Moreover, both are pharmacologically relevant. NAMPT inhibitors are being used in clinical trials as anti-cancer agents [24?7] and nicotinamidases are attractive targets to the development of drugs for infectious diseases and anti-parasitic therapies [7,8,22,28?0]. NAMPTs and PNCs do not co-occur in all organisms and, until very recently, lineages with both NAMPT and PNC had been only found in bacteria and algae [30?2]. NAMPT was thought to be absent from in.