Judith L. Leatherman

Zfh-1 controls somatic stem cell self-renewal in the Drosophila testis and nonautonomously influences germline stem cell self-renewal.

The ability of adult stem cells to maintain their undifferentiated state depends upon residence in their niche. While simple models of a single self-renewal signal are attractive, niche-stem cell interactions are likely to be more complex. Many niches have multiple cell types, and the Drosophila testis is one such complex niche with two stem cell types, germline stem cells (GSCs) and somatic cyst progenitor cells (CPCs). These stem cells require chemokine activation of Jak/STAT signaling for self-renewal. We identified the transcriptional repressor Zfh-1 as a presumptive somatic target of Jak/STAT signaling, demonstrating that it is necessary and sufficient to maintain CPCs. Surprisingly, sustained zfh-1 expression or intrinsic STAT activation in somatic cells caused neighboring germ cells to self-renew outside their niche. In contrast, germline-intrinsic STAT activation was insufficient for GSC renewal. These data reveal unexpected complexity in cell interactions in the niche, implicating CPCs in GSC self-renewal.

EARLY CHICK LIMB CARTILAGINOUS ELEMENTS POSSESS POLARIZING ACTIVITY AND EXPRESS HEDGEHOG-RELATED MORPHOGENETIC FACTORS

Skeletal patterning and morphogenesis in the developing limb are thought to be regulated by instructive factors and cues from the zone of polarizing activity (ZPA), the apical ectodermal ridge (AER), and the dorsal ectoderm. However, the activities of the ZPA and AER dwindle early in embryogenesis and soon after cease, when in fact the proximal skeletal elements are still rudimentary in structure and the more distal ones are yet to become recognizable. Thus, we asked whether the chondrocytes emerging within each mesenchymal condensation may themselves start expressing properties similar to those of ZPA and/or AER and, in so doing, may bring skeletal development to completion. Indeed, we found that the cartilaginous, but not precartilaginous, tissues in early chick limbs possess ZPA‐like properties. They expressed an endogenous factor related to Sonic hedgehog (Shh), most likely Indian hedgehog (Ihh), and when fragments were grafted to the anterior margin of host stage 16–20 chick wing buds, they induced supernumerary skeletal elements (polarizing activity). The acquisition of polarizing activity by the cartilaginous structures followed clear proximo‐to‐distal and posterior‐to‐anterior routes. Thus, (1) stage 25 cartilaginous humerus had polarizing activity while stage 25 prospective radius did not, (2) posteriorly‐located stage 29 ulna had stronger activity than anteriorly‐located stage 29 radius, and (3) ulnas diaphysis had stronger activity at stage 29 than 31 while radiuss diaphysis was stronger at stage 31 than 29. Prior to inducing extra digit formation, the cartilaginous grafts induced Hoxd‐12 and Hoxd‐13 gene expression in adjacent competent mesenchymal tissue. Strikingly, the cartilaginous grafts induced also expression of Shh and polarizing activity in adjacent mesenchyme, which ZPA grafts cannot do; thus, the cartilaginous structures displayed activities “upstream” of those of the ZPA. The results support our hypothesis that chondrocytes may themselves direct skeletal morphogenesis. In so doing and as a result of their inductive activities, the cells may also have an important role in the completion of limb patterning and morphogenesis.

Identification of a mouse germ cell-less homologue with conserved activity in Drosophila

Drosophila Germ cell-less (Gcl) has previously been shown to be important in early events during the formation of pole cells, which are the germ cell precursors in the fly. We have isolated a 524 amino acid mouse gene with 32% identity and 49% similarity to Drosophila gcl, termed mgcl-1. Like Drosophila Gcl, mGcl-1 localizes to the nuclear envelope. Ectopic expression of mgcl-1 in Drosophila rescues the gcl-null phenotype, indicating that mGcl-1 is a functional homologue of Gcl. mgcl-1 maps to chromosome 6 at 47.3 cM, and is expressed at low levels at all embryonic stages examined from 8.5 to 18.5 d.p.c. as well as in many adult tissues. Different from Drosophila gcl, mgcl-1 is not highly expressed at the time the primordial germ cells appear in the mouse, but high mgcl-1 expression is found in selected mouse adult male germ cells. The differences in these expression patterns in light of conserved activity between the two genes is discussed.