TGF-β family signaling in stem cells

Background

The diversity of cell types and tissue types that originate throughout development derives from the differentiation potential of embryonic stem cells and somatic stem cells. While the former are pluripotent, and thus can give rise to a full differentiation spectrum, the latter have limited differentiation potential but drive tissue remodeling. Additionally cancer tissues also have a small population of self-renewing cells with stem cell properties. These cancer stem cells may arise through dedifferentiation from non-stem cells in cancer tissues, illustrating their plasticity, and may greatly contribute to the resistance of cancers to chemotherapies.

Scope of review

The capacity of the different types of stem cells for self-renewal, the establishment and maintenance of their differentiation potential, and the selection of differentiation programs are greatly defined by the interplay of signaling molecules provided by both the stem cells themselves, and their microenvironment, the niche. Here we discuss common and divergent roles of TGF-β family signaling in the regulation of embryonic, reprogrammed pluripotent, somatic, and cancer stem cells.

Major conclusions

Increasing evidence highlights the similarities between responses of normal and cancer stem cells to signaling molecules, provided or activated by their microenvironment. While TGF-β family signaling regulates stemness of normal and cancer stem cells, its effects are diverse and depend on the cell types and physiological state of the cells.

General significance

Further mechanistic studies will provide a better understanding of the roles of TGF-β family signaling in the regulation of stem cells. These basic studies may lead to the development of a new therapeutic or prognostic strategies for the treatment of cancers. This article is part of a Special Issue entitled Biochemistry of Stem Cells.     

Significant association of urokinase plasminogen activator Pro141Leu with serum lipid profiles in a Japanese population

Urokinase plasminogen activator (uPA) plays important physiological and pathological roles in fibrinolysis, cancer metastasis, and atherosclerosis. One study suggested that uPA also has a major role in cholesterol biosynthesis in humans via its receptor uPAR. Thus, we investigated the associations of functional uPA polymorphism (plasminogen activator, urokinase; PLAU Pro141Leu, rs2227564) with serum lipid profiles in a Japanese cohort. The study included 5152 participants (1465 male, 3687 female; age range, 35–69 years) of the Daiko Study, a part of the Japan Multi-Institutional Collaborative Cohort Study (J-MICC Study). Subjects were enrolled at the Daiko Medical Center from June 2008 to May 2010. Low-density lipoprotein cholesterol (LDL-C) and non-HDL-C (subtraction of high-density lipoprotein cholesterol from total cholesterol) in fasting blood of participants were each classified into two groups, < or ≥ 140 mg/dL, and < or ≥ 170 mg/dL, respectively. Genotype frequencies of PLAU Pro141Leu (rs2227564) were 59.1% for ProPro, 35.6% for ProLeu, and 5.3% for LeuLeu, and were in Hardy–Weinberg equilibrium (p = 0.789). The allele frequencies were 0.769 for Pro and 0.231 for Leu. The multivariate-adjusted odd ratios (ORs) and 95% confidence intervals (CIs) for high LDL-C and non-HDL-C were 1.11 (95%CI; 1.00–1.23) and 1.16 (95%CI; 1.03–1.30) for those with Leu allele relative to ProPro. This study suggested that PLAU Pro141Leu (rs2227564) is significantly associated with serum lipid levels in a Japanese population.     

Validity and reliability of a visual scoring method for masticatory ability using test gummy jelly

Background: For quantitative evaluation of masticatory ability of the elderly patients, there should be a simple and reliable method without special techniques and instruments. Objective: The purpose of this study was to examine the validity and reliability of a visual scoring method for assessing masticatory performance. Materials and Methods: A 10‐stage scale for visually scoring was rated based on the range of the glucose concentration dissolved from comminuted jelly. Photographic images of comminuted jellies were produced as a standard material for each score. Fifty subjects were recruited as raters who graded the visual score for 50 photographic images of comminuted jellies on the screen of a lap‐top three times in random order. Results: There were strong correlations (rs = 0.911– 0.981, Spearman’s rank coefficient) between the actual scores determined from the glucose concentration and the visual scores graded by subjects in all three measurements. The intraclass correlation coefficients (ICCs) of the inter‐rater reliability and the ICCs of the intra‐rater reliability of the visual scoring ranged from 0.946 to 0.947 and from 0.860 to 0.987 in three measurements, respectively. Conclusions: These results indicated that the visual scoring method was valid and reliable for evaluation of masticatory performance.     

Abrogation of neutral cholesterol ester hydrolytic activity causes adrenal enlargement

We have previously demonstrated that neutral cholesterol ester hydrolase 1 (Nceh1) regulates foam cell formation and atherogenesis through the catalytic activity of cholesterol ester hydrolysis, and that Nceh1 and hormone-sensitive lipase (Lipe) are responsible for the majority of neutral cholesterol ester hydrolase activity in macrophages. There are several cholesterol ester-metabolizing tissues and cells other than macrophages, among which adrenocortical cells are also known to utilize the intracellular cholesterol for steroidogenesis. It has been believed that the mobilization of intracellular cholesterol ester in adrenal glands was facilitated solely by Lipe. We herein demonstrate that Nceh1 is also involved in cholesterol ester hydrolysis in adrenal glands. While Lipe deficiency remarkably reduced the neutral cholesterol ester hydrolase activity in adrenal glands as previously reported, additional inactivation of Nceh1 gene completely abrogated the activity. Adrenal glands were enlarged in proportion to the degree of reduced neutral cholesterol ester hydrolase activity, and the enlargement of adrenal glands and the accumulation of cholesterol esters were most pronounced in the Nceh1/Lipe double-deficient mice. Thus Nceh1 is involved in the adrenal cholesterol metabolism, and the cholesterol ester hydrolytic activity in adrenal glands is associated with the organ enlargement.     

KRAS-induced actin-interacting protein is required for the proper localization of inositol 1,4,5-trisphosphate receptor in the epithelial cells

Three inositol 1,4,5-trisphosphate receptor (IP₃R) subtypes are differentially expressed among tissues and function as the Ca²⁺ release channel on specialized endoplasmic reticulum (ER) membranes. The proper subcellular localization of IP₃R is crucial for its proper function, but this molecular mechanism is unclear. KRAS-induced actin-interacting protein (KRAP) was originally identified as a cancer-related molecule, and is involved in the regulation of whole-body energy homeostasis and pancreatic exocrine system. We herein identified IP₃R as an associated molecule with KRAP in vivo, and the association was validated by the co-immunoprecipitation and confocal immunostaining studies in mouse tissues including liver and pancreas. The association of KRAP with IP₃R was also observed in the human epithelial cell lines including HCT116, HeLa and HEK293 cells. Intriguingly, KRAP interacts with distinct subtypes of IP₃R in a tissue-dependent manner, i.e. IP₃R1 and IP₃R2 in the liver and IP₃R2 and IP₃R3 in the pancreas. The NH₂-terminal amino acid residues 1–610 of IP₃R are critical for the association with KRAP and KRAP–IP₃R complex resides in a specialized ER but not a typical reticular ER. Furthermore, the localization of particular IP₃R subtypes in tissues from KRAP-deficient mice is obviously disturbed, i.e. IP₃R1 and IP₃R2 in the liver and IP₃R2 and IP₃R3 in the pancreas. These findings demonstrate that KRAP physically associates with IP₃R and regulates the proper localization of IP₃R in the epithelial cells in vivo and cultured cells, and might shed light on the Ca²⁺ signaling underlying physiological cellular programs, cancer development and metabolism-related diseases.     

Induction of antigen-specific immunity by pH-sensitive carbonate apatite as a potent vaccine carrier

The ability of carbonate apatite (CO₃Ap) to enhance antigen-specific immunity was examined in vitro and in vivo to investigate its utility as a vaccine carrier. Murine bone marrow-derived dendritic cells took up ovalbumin (OVA) containing CO₃Ap more effectively than free OVA. Interestingly, mice immunized with OVA-containing CO₃Ap produced OVA-specific antibodies more effectively than mice immunized with free OVA. Furthermore, immunization of C57BL/6 mice with OVA-containing CO₃Ap induced the proliferation and antigen-specific production of IFN-γ by splenocytes more strongly than immunization with free OVA. Moreover, no significant differences were detected in the induction of delayed-type hypersensitivity responses, an immune reaction involving an antigen-specific, cell-mediated immune response between OVA-containing CO₃Ap and OVA-containing alumina salt (Alum), suggesting that CO₃Ap induced cell-mediated immune response to the same degree as Alum, which is commonly used for clinical applications. This study is the first to demonstrate the induction of antigen-specific immune responses in vivo by CO₃Ap.     

Hes1 regulates the number and anterior-posterior patterning of mesencephalic dopaminergic neurons at the mid/hindbrain boundary (isthmus)

The lack of the Hes1 gene leads to the failure of cranial neurulation due to the premature onset of neural differentiation. Hes1 homozygous null mutant mice displayed a neural tube closure defect, and exencephaly was induced at the mid/hindbrain boundary. In the mutant mesencephalon, the roof plate was not formed and therefore the ventricular zone showing cell proliferation was displaced to the brain surface. Furthermore, the telencephalon and ventral diencephalon were defective. Despite the severe defects of neurogenesis in null mutants, the mesencephalic dopaminergic (mesDA) neurons were specified at the midline of the ventral mesencephalon in close proximity to two important signal centers — floor plate and mid/hindbrain boundary (i.e., the isthmic organizer). Using mesDA neuronal markers, tyrosine hydroxylase (TH) and Pitx3, the development of mesDA neurons was studied in Hes1 null mice and compared with that in the wild type. At early stages, between embryonic day (E) 11.5 and E12.5, mesDA neurons were more numerous in null mutants than in the wild type. From E13.5 onward, however, the cell number and fiber density of mesDA neurons were decreased in the mutants. Their distribution pattern was also different from that of the wild type. In particular, mesDA neurons grew dorsally and invaded the rostral hindbrain. 5-HT neurons were also ectopically located in the mutant midbrain. Thus, the loss of Hes1 resulted in disturbances in the inductive and repulsive activities of the isthmic organizer. It is proposed that Hes1 plays a role in regulating the location and density of mesDA neurons.