Origin of oligodendrocytes within the human spinal cord.

To determine the time and site of origin of the oligodendrocyte lineage in the developing human spinal cord, we have examined tissues from 45 to 83 d postconception (dpc) using sets of probes and antibodies recognizing oligodendrocyte-specific glycolipids, transcripts, and proteins. We found that two clusters of oligodendrocyte precursors appear on or before 45 dpc on each side of the cord ventral ependyma above the floor plate. These precursors express glycolipids recognized by the O4 and Rmab antibodies, platelet-derived growth factor alpha-receptor, myelin basic protein (MBP), and 2', 3'-cyclic nucleotide 3' phosphodiesterase as well as MBP and proteolipid transcripts. Expression of the morphogen sonic hedgehog was detected in the floor plate at 45 dpc and decreased at 58 dpc. During this period, oligodendrocyte precursors emerged in the ventral and lateral region of the forming white matter, a process occurring first in cervical and later in lumbar cord. The majority of O4(+) cells express the proliferating cell nuclear antigen (PCNA), and their pattern of dispersion suggests that these cells progressively populate the lateral and dorsal cord regions. Oligodendrocytes expressing galactocerebroside appeared at 53 dpc and did not express PCNA. Oligodendrocyte precursors were detected in dorsal cord regions at 74 dpc and at 83 dpc when myelination started in the ventral roots. Thus, oligodendrocyte precursors expressing myelin transcripts and proteins emerge in the ventral region of the embryonic cord several weeks before myelination.