The same holds true for second-generation antipsychotics (SGAs) d

The same holds true for second-generation antipsychotics (SGAs) displaying only few side effects due to less rigid inactivation of dopamine receptor type 2 (DR2) and therefore fewer extrapyramidal motor symptoms recalling parkinsonism. Nevertheless, we are still struggling with inefficacious medication,

since only about one third of antidepressant agents work in a given patient, meaning that one has to try on average three different medications in order to alleviate this patient’s symptoms. For schizophrenia the same holds true. Sometimes, the individual situation seems even worse than in the field of affective disorders. Some stem cell basics Inhibitors,research,lifescience,medical As mentioned above, this article emphasizes the link between disturbed adult neurogenesis (AN) and affective disorder. The case seems Inhibitors,research,lifescience,medical to be much more evident here than in schizophrenia, although decreased neural stem cell proliferation in the dentate gyrus (DG) of the hippocampus has been demonstrated in postmortem human brain from schizophrenic patients.4 Inhibitors,research,lifescience,medical Stem cells can be characterized by two fundamental qualities: first, they have the capacity for unlimited selfrenewal, and second, they can produce at least one type of highly differentiated descendants.5 This particular cell division is termed

“asymmetrical”: in general, each stem cell division gives rise to one stem and one committed somatic daughter cell.6 Stem cells are

single cells that, once developed, self -renew for the lifetime of the organism. These stem cells should be distinguished from transient progenitor cells, which have a limited self-renewal lifespan.7 Some steps earlier during the embryonic period, cells become gradually restricted to distinct pathways Inhibitors,research,lifescience,medical of differentiation. This process includes modification of their developmental potential; they become Inhibitors,research,lifescience,medical pluripotent (“many, several”). The major difference between totipotency and pluripotency is that an embryonic stem cell (ES cell) which is by definition “pluripotent,” can only form cells which constitute the embryo Fedratinib cell line itself but not the placenta. Early ES cells can be taken from the embryo and grown in vitro. When retransferred Phosphoprotein phosphatase into the embryo, these cells can still generate all tissues, including the germ line.8 ES cells also play a central role in the generation of transgenic animals such as knockout mice. Pluripotency of stem cells becomes progressivelyrestricted and they become multipotent. Multipotent stem cells in the brain ultimately give rise to all different types of neuronal and non-neuronal cells in the central nervous system. Presumably they have lost the ability to produce cells of ento- and mesodermal origin. Because they are capable of generating the entire progeny of a given tissue, some investigators have termed these multipotent stem cells “progenitor cells.

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