Frontiers in Cellular Neuroscience (Jun 2024)

Unusual morphology of foveal Müller glia in an adult human born pre-term

  • Deepayan Kar,
  • Ramya Singireddy,
  • Yeon Jin Kim,
  • Orin Packer,
  • Richard Schalek,
  • Dongfeng Cao,
  • Kenneth R. Sloan,
  • Andreas Pollreisz,
  • Dennis M. Dacey,
  • Christine A. Curcio

DOI
https://doi.org/10.3389/fncel.2024.1409405
Journal volume & issue
Vol. 18

Abstract

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The fovea of the human retina, a specialization for acute and color vision, features a high concentration of cone photoreceptors. A pit on the inner retinal aspect is created by the centrifugal migration of post-receptoral neurons. Foveal cells are specified early in fetal life, but the fovea reaches its final configuration postnatally. Pre-term birth retards migration resulting in a small pit, a small avascular zone, and nearly continuous inner retinal layers. To explore the involvement of Müller glia, we used serial-section electron microscopic reconstructions to examine the morphology and neural contacts of Müller glia contacting a single foveal cone in a 28-year-old male organ donor born at 28 weeks of gestation. A small non-descript foveal avascular zone contained massed glial processes that included a novel class of ‘inner’ Müller glia. Similar to classic ‘outer’ Müller glia that span the retina, inner Müller glia have bodies in the inner nuclear layer (INL). These cells are densely packed with intermediate filaments and insert processes between neurons. Unlike ‘outer’ Müller glia, ‘inner’ Müller glia do not reach the external limiting membrane but instead terminate at the outer plexiform layer. One completely reconstructed inner cell ensheathed cone pedicles and a cone-driven circuit of midget bipolar and ganglion cells. Inner Müller glia outnumber foveal cones by 1.8-fold in the outer nuclear layer (221,448 vs. 123,026 cells/mm2). Cell bodies of inner Müller glia outnumber those of outer Müller glia by 1.7-fold in the INL (41,872 vs. 24,631 cells/ mm2). Müller glia account for 95 and 80% of the volume of the foveal floor and Henle fiber layer, respectively. Determining whether inner cells are anomalies solely resulting from retarded lateral migration of inner retinal neurons in pre-term birth requires further research.

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