Totipotency or plenipotency: rethinking stem cell bipotentiality

Abstract

The term 'totipotency' has often been misapplied in stem cell research to describe cells with embryonic and extraembryonic bipotentiality, despite a lack of evidence that they can generate an entire organism from a single cell. Additionally, no specific term currently distinguishes bipotential stem cells from pluripotent cells, which contribute poorly to extraembryonic tissues. This review examines the developmental continuum from totipotency to pluripotency in early embryos and revisits the previously proposed concept of plenipotency in preimplantation development. We evaluate emerging stem cell models that exhibit bipotentiality but have lost the ability to autonomously initiate and sustain the sequential fate decisions necessary to develop into a complete organism. Unlike totipotent embryonic cells, which retain the information required to initiate fate decisions at the correct timing and cell numbers, these stem cells have lost that capacity. This loss of critical developmental information distinguishes totipotency from plenipotency, with bipotential stem cells aligning more closely with the latter. By distinguishing plenipotency from totipotency and pluripotency, we aim to refine terminology, enhance our understanding of early embryonic development, and address ethical considerations in human research.

Figure 1.. Distinct developmental stages of mouse preimplantation embryos.

A putative developmental coordinate of plenipotency together with well-established embryonic stages of totipotency and naive/formative/primed pluripotency.