The bone morphogenetic proteins (BMPs) play fundamental roles during the organization of the central nervous system. The presence of these proteins has also been demonstrated in regions of the adult brain that are characterized by neural plasticity. In this study, we examined the expression of BMP4, 6, and 7 mRNAs and proteins in the murine olfactory system. The olfactory system is a useful model for studying cell proliferation and neural differentiation because both of these processes persist throughout life in the olfactory epithelium (OE) and olfactory bulb (OB). Our results demonstrate a differential expression of BMP4, 6, and 7 in the embryonic, postnatal, and adult olfactory system. In particular, BMP4 and BMP7 showed similar immunostaining patterns, being expressed in the olfactory region from the earliest stages studied (embryonic day 15.5) to adulthood. During development BMPs were expressed in the OE, olfactory bulb nerve layer, glomerular layer (GL), mitral cell layer (MCL), and subventricular zone. During the first postnatal week of life, BMP4 and 7immunoreactivity (-ir) was particularly evident in the GL, MCL, and in the subependymal layer (SEL), which originates postnatally from the subventricular zone. In adults, BMP4 and 7 immunostaining was present in the GL and SEL. Within the SEL, BMP4 and 7 proteins were expressed primarily in association with the astrocytic glial compartment. BMP6-ir was always found in mature olfactory receptor neurons and their axonal projections to the OB. In summary, these data support the hypothesis that BMPs play a role in the morphogenesis of the olfactory system during development and in its plasticity during adulthood.Indexing terms: neural plasticity; olfactory glomerulus; subventricular zone; transforming growth-factor-βThe bone morphogenetic proteins (BMPs) are a subclass of ligands that are members of the transforming growth factor-β (TGFβ ) superfamily of cytokines. This large group of molecules includes more than 20 members, which participate in a multitude of biological processes. BMPs exert their biological function by interacting with serine/threonine kinase receptors, including BMP receptor type-I and type-II (BMPR-I and II). They play important roles throughout neural development, acting in cell proliferation, survival, lineage commitment, apoptosis, and differentiation. In early embryogenesis BMPs together with BMP-related factors, such as their natural antagonists/modulators noggin, chordin, tolloid, and follistatin, are involved in neurulation
