Perspectives

De novo generation of haematopoietic stem cells from different human pluripotent stem cell sources remains a high priority for haematology and regenerative medicine. At present, efficient derivation of functional haematopoietic stem cells with the capability for definitive in vivo engraftment and multi-lineage potential remains challenging. Here, we discuss recent progress and strategies to overcome obstacles that have thwarted past efforts. In addition, we review promising advances in the generation of mature blood lineages and the potential of induced pluripotent stem cells.

Visvader and Clevers discuss how stem cells from different tissues, such as the intestine, mammary gland and skeletal muscle, follow different strategies and hierarchies to maintain their complex, tissue-specific balance.

Microtubule polymerization is initiated by γ-tubulin containing complexes. Petry and Vale discuss factors involved in localizing and activating γ-tubulin at different locations in the cell.

Cancer stem cells (CSCs) have been proposed as the driving force of tumorigenesis and the seeds of metastases. However, their existence and role remain a topic of intense debate. Recently, the identification of CSCs in endogenously developing mouse tumours has provided further support for this concept. Here I discuss the challenges in identifying CSCs, their dependency on a supportive niche and their role in metastasis, and propose that stemness is a flexible — rather than fixed — quality of tumour cells that can be lost and gained.

It has been proposed that the spindle assembly checkpoint detects both unattached kinetochores and lack of tension between sister kinetochores when sister chromatids are not attached to opposite spindle poles. However, here we argue that there is only one signal — whether kinetochores are attached to microtubules or not — and this has implications for our understanding of both chromosome segregation and the control of genomic stability.

During development, stem and progenitor cells gradually commit to differentiation pathways. Cell fate decisions are regulated by differentiation factors, which activate transcription programmes that specify lineage and differentiation status. Among these factors, the transforming growth factor (TGF)-β family is important in both lineage selection and progression of differentiation of most, if not all, cell and tissue types. There is now increasing evidence that TGF-β family proteins have the ability to redirect the differentiation of cells that either have fully differentiated or have engaged in differentiation along a particular lineage, and can thereby elicit 'transdifferentiation'. This capacity for cellular plasticity is critical for normal embryonic development, but when recapitulated in the adult it can give rise to, or contribute to, a variety of diseases. This is illustrated by the ability of TGF-β family members to redirect epithelial cells into mesenchymal differentiation and to cause switching of mesenchymal cells from one lineage to another. Hence, various pathologies in adults may be considered diseases of abnormal development and differentiation.

During development, embryonic cells sculpt three-dimensional tissues. Although cell polarity is commonly analysed along one, and sometimes two, dimensions, this perspective illustrates how higher-order cell polarity regulates convergent extension — the coordinated cell rearrangement that produces solid tissue elongation.

The Hedgehog (Hh) pathway plays central roles in animal development and stem-cell function. Defects in Hh signalling lead to birth defects and cancer in humans. The first and often genetically damaged step in this pathway is the interaction between two membrane proteins — Patched (Ptc), encoded by a tumour suppressor gene, and Smoothened (Smo), encoded by a proto-oncogene. Recent work linking Hh signalling to sterol metabolites and protein-trafficking events at the primary cilium promises to shed light on the biochemical basis of how Patched inhibits Smoothened, and to provide new avenues for cancer treatment.