This change begins to occur in late pregnancy with the generation of vast numbers of cells with two nuclei.
The research was led by Professor Jane Visvader, Professor Geoff Lindeman, Dr Anne Rios and Dr Nai Yang Fu, from the institute’s ACRF Stem Cells and Cancer Division, and shows that these cells with two nuclei disappear at the cessation of lactation, when breast cells return to a single nucleus state. It is published today in the journal Nature Communications.
Using unique 3-D imaging technology Dr Rios and Dr Fu found huge numbers of cells became binucleated – developed a second nucleus – a process that is critical to milk production.
Professor Visvader said the process – which lasts only for the duration of lactation – was important for the newborn to thrive when breast milk was the sole nutrient.
“We know that these cells are milk-producing factories,” Professor Visvader said.
“What is interesting to find is they change according to a very tightly regulated regime – they develop two nuclei, not three of four and then return to one nucleus after lactation. Presumably this is important to avoid mishaps,” she said.
Institute researcher Professor Lindeman said the research showed how mammals, including humans, wallabies and seals, were primed to adapt to pregnancy in ways that best supported the survival of their babies.
“Based on their presence in five different species, these findings suggest that this process has evolved in mammals as a mechanism to maximise milk production, which is essential for nourishing the newborn and the survival of mammalian species,” he said.
This research was supported by the National Health and Medical Research Council of Australia, the National Breast Cancer Foundation, Cure Cancer Australia, the Australian Cancer Research Foundation and the Victorian Government’s Operational Infrastructure Program.
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