Studies on neurogenesis in the adult human brain

Andersson, Annika

January 2010

<p>Many studies on neurogenesis in adult dentate gyrus (DG) have been performed on rodents and other mammalian species, but only a few on adult human DG.  This study is focusing on neurogenesis in adult human DG. To characterize the birth of cells in DG, the expression of the cell proliferation marker Ki67 was examined using immunohistochemistry. Ki67-positive labelling was indeed observed in the granular cell layer and the molecular layer of dentate gyrus and in the hilus of hippocampus, as well as in the subgranular zone (SGZ). The Ki67 positive nuclei could be divided into three groups, based on their morphology and position, suggesting that one of the groups represents neuronal precursors. Fewer Ki67 positive cells were seen in aged subjects and in subjects with an alcohol abuse. When comparing the Ki67 positive cells and the amount of blood vessels as determined by anti factor VIII, no systematic pattern could be discerned. To identify possible stem/progenitor cells in DG a co-labelling with nestin and glial fibrillary acid protein was carried out. Co-labelling was found in the SGZ, but most of the filaments were positive for just one of the two antibodies. Antibodies to detect immature/mature neurons were also used to investigate adult human neurogenesis in DG. The immature marker βIII-tubulin showed a weak expression. The other two immature markers (PSA-NCAM and DCX) used did not work, probably since they were not cross-reacting against human tissue. In summary, this study shows that new cells are continuously formed in the adult human hippocampus, but at a slower pace compared to the rat, and that some of these new cells may represent neuronal precursors.</p>

Neurogenesis

subgranular zone

adult human DG

Ki67

Studies on neurogenesis in the adult human brain

Andersson, Annika

January 2010

Many studies on neurogenesis in adult dentate gyrus (DG) have been performed on rodents and other mammalian species, but only a few on adult human DG.  This study is focusing on neurogenesis in adult human DG. To characterize the birth of cells in DG, the expression of the cell proliferation marker Ki67 was examined using immunohistochemistry. Ki67-positive labelling was indeed observed in the granular cell layer and the molecular layer of dentate gyrus and in the hilus of hippocampus, as well as in the subgranular zone (SGZ). The Ki67 positive nuclei could be divided into three groups, based on their morphology and position, suggesting that one of the groups represents neuronal precursors. Fewer Ki67 positive cells were seen in aged subjects and in subjects with an alcohol abuse. When comparing the Ki67 positive cells and the amount of blood vessels as determined by anti factor VIII, no systematic pattern could be discerned. To identify possible stem/progenitor cells in DG a co-labelling with nestin and glial fibrillary acid protein was carried out. Co-labelling was found in the SGZ, but most of the filaments were positive for just one of the two antibodies. Antibodies to detect immature/mature neurons were also used to investigate adult human neurogenesis in DG. The immature marker βIII-tubulin showed a weak expression. The other two immature markers (PSA-NCAM and DCX) used did not work, probably since they were not cross-reacting against human tissue. In summary, this study shows that new cells are continuously formed in the adult human hippocampus, but at a slower pace compared to the rat, and that some of these new cells may represent neuronal precursors.

Neurogenesis

subgranular zone

adult human DG

Ki67

Transplanted Adult Human Hepatic Stem/Progenitor Cells Prevent Histogenesis of Advanced Hepatic Fibrosis in Mice Induced by Carbon Tetrachloride

Bi, Yanzhen, Liu, Xiyu, Si, Chuanping, Hong, Ye, Lu, Yongke, Gao, Pengfei, Yang, Yonghong, Zhang, Xiaobei, Wang, Yibo, Xiong, Huabao, Duan, Zhongping, Chen, Yu, Hong, Feng

01 January 2019

Transplantation of adult human hepatic stem/progenitor cells (hHSPCs) has been considered as an alternative therapy, replacing donor liver transplantation to treat liver cirrhosis. This study assessed the antifibrotic effects of hHSPCs in mice with fibrosis induced by carbon tetrachloride (CCl4) and examined the actions of hHSPCs on the fibrogenic activity of human hepatic stellate cells (HSCs) in a coculture system. Isolated hHSPCs expressed stem/progenitor cell phenotypic markers. Mice were given CCl4 (twice weekly for 7 weeks) and hHSPC transplantation weekly. CCl4 induced advanced fibrosis (bridging fibrosis and cirrhosis) in mice, which was prevented by hHSPC transplantation. The liver of hHSPC-transplanted mice showed only occasional short septa and focal parenchymal fibrosis, and a 50% reduction in hepatic collagen, assessed by Sirius red stain histomorphometry. Moreover, the proteins for α-smooth muscle actin (α-SMA) and collagen I were decreased. While α-SMA, collagen α1(I), and tissue inhibitor of metalloproproteinase-1 mRNAs were decreased, matrix metalloproteinase (MMP)-1 mRNA was increased, consistent with decreased fibrogenesis. MMP-2 and transforming growth factor-Β were not affected. Alanine aminotransferase and aspartate aminotransferase were lower, suggesting improvement of liver function/damage. In coculture, hHSPCs elicited changes of α-SMA and fibrogenic molecules in HSCs similar to those observed in vivo, providing evidence for a functional link between hHSPCs and HSCs. A decreased HSC proliferation was noted. Thus, transplantation of hHSPCs prevents histogenesis of advanced liver fibrosis caused by CCl4. hHSPCs mediate downregulation of HSC activation coincident with modulation of fibrogenic molecule expression, leading to suppression of fibrogenesis both in vivo and in vitro.

cell transplantation

hepatic fibrosis

Health Sciences

Die Rolle der Bone-Morphogenetic-Proteine (BMP) -2 und -5 in der adulten humanen Niere und bei der hypertensiven Nephrosklerose / The role of Bone Morphogenetic Proteins (BMP) -2 and -5 in the human adult kidney and the hypertensive nephrosclerosis

Bevanda, Jelena

28 April 2015

Bone-Morphogenetic-Proteine besitzen eine umfangreiche Funktion in der Embryo- und Organogenese sowie bei der Gewebsregeneration im adulten Organismus. BMP-7 ist an der Nephrogenese beteiligt und besitzt protektive und regenerative Fähigkeiten in der adulten Niere. Das eng verwandte BMP-5 ist ebenfalls an der Nephrogenese beteiligt, wurde aber bisher in der adulten humanen Niere nicht untersucht. BMP-2 ist in der Embryogenese unabdingbar. Es induziert die Differenzierung, Migration und Proliferation embryonaler Stammzellen und ist essentiell in der Knochenentwicklung. Die Rolle von BMP-2 in der adulten Niere ist unklar. Ziel dieser Arbeit war es, die Expression, Funktion und Regulation von BMP-2 und BMP-5 in der adulten humanen Niere, bei der hypertensiven Nephrosklerose und in verschiedenen renalen Zelllinien zu untersuchen.

610

BMP-2

BMP-5

Bone Morphogenetic Proteine

hypertensive Nephrosklerose

adulte humane Niere

hypertensive nephrosclerosis

adult human kidney

BMP-2

BMP-5

Medizin (PPN619874732)