Types of Stem Cells in Regenerative Medicine: A Review

Two basic and clinical researches accomplished during the recent years on embryonic and adult stem cells constituted a mutation in regenerative therapy. These cells can be used for treating some degenerative diseases. Between them, age-related functional defects, hematopoietic and immune system disorders, heart failures, chronic liver injuries, diabetes, Parkinson’s and Alzheimer’s diseases, arthritis and muscular, skin, lung, eye, and digestive disorders, aggressive and regressive cancers can be treated by cell therapies. This review focused on types of stem cells used in regenerative medicine

Mutations in HYAL2, Encoding Hyaluronidase 2, Cause a Syndrome of Orofacial Clefting and Cor Triatriatum Sinister in Humans and Mice.

Orofacial clefting is amongst the most common of birth defects, with both genetic and environmental components. Although numerous studies have been undertaken to investigate the complexities of the genetic etiology of this heterogeneous condition, this factor remains incompletely understood. Here, we describe mutations in the HYAL2 gene as a cause of syndromic orofacial clefting. HYAL2, encoding hyaluronidase 2, degrades extracellular hyaluronan, a critical component of the developing heart and palatal shelf matrix. Transfection assays demonstrated that the gene mutations destabilize the molecule, dramatically reducing HYAL2 protein levels. Consistent with the clinical presentation in affected individuals, investigations of Hyal2-/- mice revealed craniofacial abnormalities, including submucosal cleft palate. In addition, cor triatriatum sinister and hearing loss, identified in a proportion of Hyal2-/- mice, were also found as incompletely penetrant features in affected humans. Taken together our findings identify a new genetic cause of orofacial clefting in humans and mice, and define the first molecular cause of human cor triatriatum sinister, illustrating the fundamental importance of HYAL2 and hyaluronan turnover for normal human and mouse development

第948回千葉医学会例会・第14回千葉精神科集談会

Expression of NGN3 and hairy and enhancer of split-1 (HES1) mRNA following treatment with tyrosine kinase inhibitor CEP-701. Quantitative RTPCR results of four biological replicate samples (A–D) treated with API-1 for four days. RQ, relative quantification of NGN3 and HES1 normalized to the level of cyclophillin A. ΔCt, change in threshold cycle (Ct). Mean and standard error of the mean (SEM), results of Student’s t-test (TTEST) and percentage of control are shown. (DOCX 47 kb

The Estimation of GC Repeats in Promoter P1 of IGF-1 Gene and Their Influence on IGF-1 Plasma Levels in Stable Angina Patients

Increased plasma levels of insulin-like growth factor 1 (IGF-1) are observed in advanced arteriosclerosis, but the reasons for these elevated levels remain unknown. One possibility to explain them is variation in the sequences that control IGF-1 gene expression. The goal of this study was to determine the effect of molecular variants of the IGF-1 P1 promoter on IGF-1 serum levels and to determine the impact of IGF-1 levels on the severity of coronary atherosclerosis. Methods: Blood samples were collected from 101 consecutive patients undergoing routine angiography. Genomic DNA was isolated from the nucleated cells of the blood plasma as described (2). Based on the presence of conformational differences in the DNA strand and on the absence of single nucleotide polymorphisms, the DNA from 38 patients was further analyzed by the “allelic ladder” method to determine the number of repeated GC dinucleotides in the P1 promoter of the IGF-1 gene. In addition, we analyzed serum growth hormone levels in order to examine the effect on systemic IGF-1 synthesis. Results: Conformational differences in the P1 promoter of the IGF-1 gene were observed in 38 out of the 101 patients. Several genotypes, depending on the number of GC repeats, were observed (11/19,17/19,18/19,18/21,19/19,19/20,19/21). Interestingly, a family history of coronary artery disease was seen less often among individuals heterozygous for the GC repeats. A lower IGF-1 levels were seen in non-variant carriers (homozygous genotypes for 19 or 21 repeats of GC, or heterozygous genotype 19/21) when compared to the variant group (other heterozygous genotypes then 19/21) (181.6 ± 47.9 ng/mL vs. 227.7 ± 73.7, p = 0.026). A correlation between IGF-1, IGF-binding protein number 3, and growth hormone levels (p = ns) was not observed, and there were no significant differences in the growth hormone levels in the studied group of patients (p = ns)

Isolation and Characterization of Pluripotent Human Spermatogonial Stem Cell-Derived Cells

Several reports have documented the derivation of pluripotent cells (multipotent germline stem cells) from spermatogonial stem cells obtained from the adult mouse testis. These spermatogonia-derived stem cells express embryonic stem cell markers and differentiate to the three primary germ layers, as well as the germline. Data indicate that derivation may involve reprogramming of endogenous spermatogonia in culture. Here, we report the derivation of human multipotent germline stem cells (hMGSCs) from a testis biopsy. The cells express distinct markers of pluripotency, form embryoid bodies that contain derivatives of all three germ layers, maintain a normal XY karyotype, are hypomethylated at the H19 locus, and express high levels of telomerase. Teratoma assays indicate the presence of human cells 8 weeks post-transplantation but limited teratoma formation. Thus, these data suggest the potential to derive pluripotent cells from human testis biopsies but indicate a need for novel strategies to optimize hMGSC culture conditions and reprogramming

The bHLH/Per-Arnt-Sim transcription factor SIM2 regulates muscle transcript myomesin2 via a novel, non-canonical E-box sequence

Despite a growing number of descriptive studies that show Single-minded 2 (Sim2) is not only essential for murine survival, but also upregulated in colon, prostate and pancreatic tumours, there is a lack of direct target genes identified for this basic helix–loop–helix/PAS transcription factor. We have performed a set of microarray experiments aimed at identifying genes that are differentially regulated by SIM2, and successfully verified that the Myomesin2 (Myom2) gene is SIM2-responsive. Although SIM2 has been reported to be a transcription repressor, we find that SIM2 induces transcription of Myom2 and activates the Myom2 promoter sequence when co-expressed with the heterodimeric partner protein, ARNT1, in human embryonic kidney cells. Truncation and mutation of the Myom2 promoter sequence, combined with chromatin immunoprecipitation studies in cells, has lead to the delineation of a non-canonical E-box sequence 5′-AACGTG-3′ that is bound by SIM2/ARNT1 heterodimers. Interestingly, in immortalized human myoblasts knock down of Sim2 results in increased levels of Myom2 RNA, suggesting that SIM2 is acting as a repressor in these cells and so its activity is likely to be highly context dependent. This is the first report of a direct SIM2/ARNT1 target gene with accompanying analysis of a functional response element

Epithelial Cells Derived from Human Embryonic Stem Cells Display P16INK4A Senescence, Hypermotility, and Differentiation Properties Shared by Many P63+ Somatic Cell Types

Human embryonic stem (hES) cells can generate cells expressing p63, K14, and involucrin, which have been proposed to be keratinocytes. Although these hES-derived, keratinocyte-like (hESderK) cells form epithelioid colonies when cultured in a fibroblast feeder system optimal for normal tissue-derived keratinocytes, they have a very short replicative lifespan unless engineered to express HPV16 E6E7. We report here that hESderK cells undergo senescence associated with p16INK4A expression, unrelated to telomere status. Transduction to express bmi1, a repressor of the p16INK4A/p14ARF locus, conferred upon hESderK cells and keratinocytes a substantially extended lifespan. When exposed to transforming growth factor beta or to an incompletely processed form of Laminin-332, three lifespan-extended or immortalized hESderK lines that we studied became directionally hypermotile, a wound healing and invasion response previously characterized in keratinocytes. In organotypic culture, hESderK cells stratified and expressed involucrin and K10, as do epidermal keratinocytes in vivo. However, their growth requirements were less stringent than keratinocytes. We then extended the comparison to endoderm-derived, p63+/K14+ urothelial and tracheobronchial epithelial cells. Primary and immortalized lines of these cell types had growth requirements and hypermotility responses similar to keratinocytes and bmi1 expression facilitated their immortalization by engineering to express the catalytic subunit of telomerase (TERT). In organotypic culture, they stratified and exhibited squamous metaplasia, expressing involucrin and K10. Thus, hESderK cells proved to be distinct from all three normal p63+ cell types tested. These results indicate that hESderK cells cannot be identified conclusively as keratinocytes or even as ectodermal cells, but may represent an incomplete form of, or deviation from, normal p63+ lineage development