Fig. 1. Combinatorial expression of MASH1, DLX2 and markers of proliferation and differentiation provide evidence for distinct stages of cellular maturation in the lateral ganglionic eminence (LGE). Fluorescence microscopic images of wild-type subcortical cells stained with a pair of antibodies (differentially labeled with green or red fluorophors) that bind to the proteins indicated above each panel; yellow cells are double labeled. Coronal sections (10 µm) from E10.5 embryos (A-D) and E11.5 embryos (F-J) show the primordium of the LGE. (E) Dissociated cells prepared from E10.5 subcortical telencephalon (arrows indicate double-positive cells). The boxed areas in Fig. 2 show the approximate regions of the LGE shown in Fig. 1. PCNA labels proliferating cells, and thereby defines the location of the progenitor zones, whereas MAP2 and GABA label postmitotic neurons (arrow in C,D), and thereby define the position of the mantle zones. PH3 labels M-phase cells in the VZ and the SVZ (arrow in H). P1 progenitors (MASH1-/DLX2-) and P2 progenitors (P2, MASH1+/DLX2-) are only in the VZ. P3 progenitors (MASH1+/DLX2+) are in the VZ and SVZ. In A, P1 progenitors are unlabeled, P2 progenitors are green and P3 progenitors are yellow. N1 cells are the earliest born neurons; we propose that they are generated from P2 progenitors (see Fig. 7). N1 neurons are MAP2+ and continue to express DLX2 (see inset in D). The LGE progenitor zone can be divided into at least two parts along the dorsoventral axis: the dorsal LGE (dLGE) and the ventral LGE (vLGE) (Yun et al., 2001). dLGE neurogenesis precedes that of vLGE, and therefore may contribute to a major portion of the N1 population. Some MASH-/DLX2+ cells are observed in the VZ and SVZ (particularly in the dLGE); these are the red cells in the VZ in A. These cells might correspond to another type of progenitor. LV, lateral ventricle; ME, mesenchyme; MZ, mantle zone; VZ, ventricular zone; SVZ, subventricular zone. Scale bars: 100 µm. Arrows in J indicate examples of PCNA/Mash1 double-positive cells.

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