Alain Propper scite author profile

Olfactory neurons (ON) which are located in the olfactory epithelium are responsible of odorous molecule detection. A unique feature of these cells is their continuous replacement throughout life due to the proliferation and differentiation of local neural precursors, the basal cells. Thus, experimental destruction of all ON induces a stimulation of basal cell division followed by tissue regeneration. The fact that ON precursors display such proliferative and neurogenic activity in adults makes these cells particularly attractive as a potential tool for nervous system repair. However, basal cell proliferation and, thus, ON production, decrease in relation to age; mostly during the first months of life. Therefore, we aimed to seek whether the ability of ON precursors to yield new functional ON in regenerative conditions was consequently impaired in adult. ZnSO4 intranasal perfusion administered to young (1 month) and adult (6 months) mice leads in a few days to total ON destruction and to hyposmia. Tissue and function restoration occurred in the following weeks in both mice groups and was preceded by a transient peak of cell division. In adults, although neurogenesis in the impaired olfactory epithelium was less efficient than in young mice, neural precursors retain their ability to provide new functional ON as indicated by the butanol detection recovery. This was achieved more rapidly than total ON regeneration, suggesting that a reduced number of reconnected ON may be sufficient for odor discrimination.

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Prenatal Morphogenesis of Mammary Glands in Mouse and Rabbit

Propper

Howard

Veltmaat

2013

J Mammary Gland Biol Neoplasia

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Our understanding of prenatal morphogenesis of mammary glands has recently greatly advanced. This review focuses on morphogenesis proper, as well as cellular processes and tissue interactions involved in the progression of the embryonic mammary gland through sequential morphogenic stages in both the mouse and rabbit embryo. We provide a synthesis of both historical and more recent studies of embryonic mammary gland development, as well as arguments to revise old concepts about mechanisms of mammary line and rudiment formation. Finally, we highlight outstanding issues that remain to be addressed.

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Accumulation of Ym1/2 protein in the mouse olfactory epithelium during regeneration and aging

Giannetti

Moyse²,

Ducray

et al. 2004

Neuroscience

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Wandering epithelial cells in the rabbit embryo milk line

Propper

1978

Developmental Biology

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Alain Propper

Adhesion and proliferation of cells on new polymers modified biomaterials

Recovery following peripheral destruction of olfactory neurons in young and adult mice

Prenatal Morphogenesis of Mammary Glands in Mouse and Rabbit

Accumulation of Ym1/2 protein in the mouse olfactory epithelium during regeneration and aging

Wandering epithelial cells in the rabbit embryo milk line

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