Thursday, October 13, 2022

Human neurons implanted in a rat brain influence its behavior

Amazing stuff! Possibly a game changer! Humans are taking over and accelerating evolution! Merging of brain function! Working on the age old Homunculus!

"The experiment — part of a study published Wednesday in Nature — is the first describing human neurons influencing another species’ behavior. The study also showed that signals could go the other way; tendrils of human neurons mingled with the rodent brain cells and fired in response to air rustling the rats’ whiskers."

From the abstract:
"Self-organizing neural organoids represent a promising in vitro platform with which to model human development and disease. However, organoids lack the connectivity that exists in vivo, which limits maturation and makes integration with other circuits that control behaviour impossible. Here we show that human stem cell-derived cortical organoids transplanted into the somatosensory cortex of newborn athymic rats develop mature cell types that integrate into sensory and motivation-related circuits. MRI reveals post-transplantation organoid growth across multiple stem cell lines and animals, whereas single-nucleus profiling shows progression of corticogenesis and the emergence of activity-dependent transcriptional programs. Indeed, transplanted cortical neurons display more complex morphological, synaptic and intrinsic membrane properties than their in vitro counterparts, which enables the discovery of defects in neurons derived from individuals with Timothy syndrome. Anatomical and functional tracings show that transplanted organoids receive thalamocortical and corticocortical inputs, and in vivo recordings of neural activity demonstrate that these inputs can produce sensory responses in human cells. Finally, cortical organoids extend axons throughout the rat brain and their optogenetic activation can drive reward-seeking behaviour. Thus, transplanted human cortical neurons mature and engage host circuits that control behaviour. We anticipate that this approach will be useful for detecting circuit-level phenotypes in patient-derived cells that cannot otherwise be uncovered."

Human neurons implanted in a rat brain influence its behavior - STAT A long overview article.


Fig. 1: Transplantation of human cortical organoids in the developing rat cortex.


A transplanted human organoid labeled with a fluorescent protein in a section of the rat brain.


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