Lymphotoxin β Receptor (LtβR): Dual Roles in Demyelination and Remyelination and Successful Therapeutic Intervention Using LtβR–Ig Protein

PCR analysis of LIGHT during cuprizone treatment. A, RT-PCR for the ligand LIGHT was performed on cDNA from untreated and cuprizone-treated wild-type mouse brain. As controls, untreated thymus and spleen were analyzed. Representative results show that very low levels of LIGHT mRNA exist in the untreated and cuprizone-treated brain. B, RT-PCR on wild-type (WT) and LtβR^−/− untreated (untrt) and treated brain cDNA demonstrate that the lack of LtβR has no effect on LIGHT RNA levels.

Time course of demyelination and remyelination in LtβR^−/− and wild-type mice. A, LFB–PAS-stained paraffin sections were graded on a scale from 0 (normal myelination) to 3 (complete demyelination) by three double-blinded investigators. Each circle represents an individual mouse: open circles, C57BL/6 wild-type (Wt); filled circles, LtβR^−/− mice. Horizontal lines indicate the median score of each group. Significant differences in demyelination were seen between wild-type and LtβR^−/− mice at 3 weeks (p < 0.02), 3.5 weeks (p < 0.01), and 4 weeks (p < 0.001). Significant differences during remyelination were detected at 7 weeks (p < 0.001) and 10 weeks (p < 0.02). B, Representative LFB–PAS pictures at 4 weeks of treatment demonstrate the delay in demyelination in LtβR^−/− mice (ii) compared with wild-type mice (i). Higher-magnification images of the corpus callosum of LtβR^−/− (iv) and wild-type (iii) mice demonstrate the lack of myelinated fibers and increased inflammation in wild-type mice during demyelination.

Delayed loss of mature oligodendrocytes during demyelination in LtβR^−/− mice. A, Mature oligodendrocytes were detected at midline corpus callosum of wild-type and LtβR^−/− brains by GSTπ immunohistochemistry. More GSTπ⁺ cells were found in LtβR^−/− mice compared with wild-type mice at 3 weeks (p = 0.09) (wild-type, gray bars; LtβR^−/−, black bars). Significantly more GSTπ⁺ cells were found in LtβR^−/− mice at 3.5 weeks (p < 0.03), although no differences in oligodendrocytes were found at 4 and 5 weeks of cuprizone treatment. After the removal of cuprizone, no differences in oligodendrocyte repopulation of the corpus callosum were observed between wild-type and LtβR^−/− mice. B, Representative pictures of GSTπ⁺ cells from wild-type and LtβR^−/− mice at 3 and 3.5 weeks of cuprizone treatment. C, Microglial/macrophage accumulation at midline corpus callosum is unaffected by LtβR. Microglia/macrophages were detected by RCA-1 lectin staining of paraffin sections from wild-type and LtβR^−/− mice during demyelination and remyelination time points. No significant difference in numbers of RCA-1⁺ cells was observed between wild-type and LtβR^−/− mice at any time point.

Therapeutic inhibition of LtβR significantly delays demyelination. A, C57BL/6 mice were treated with 0.2% cuprizone for 3.5 weeks. Mice received weekly injections (indicated by small arrows) of either LtβR–hIg or control human Ig beginning at day −1 of cuprizone treatment. B, Significant differences in demyelination were observed between LtβR–hIg-treated and control human Ig-treated mice after 3.5 weeks of cuprizone treatment (p < 0.02). LFB–PAS-stained paraffin sections were graded on a scale of 0 (normal myelination) to 3 (complete demyelination) by three double-blinded investigators. Each circle represents an individual mouse: open circles, control human Ig-treated mice; filled circles, LtβR–hIg-treated mice. Horizontal lines indicate the median score of each group. C, Representative LFB–PAS pictures at 3.5 weeks of treatment demonstrate the delay in demyelination in control human Ig-treated mice (i) compared with LtβR–hIg-treated mice (ii). High-magnification images of the corpus callosum of control human Ig-treated mice (iii) and LtβR–hIg-treated mice (iv) demonstrate the lack of myelinated fibers and increased inflammation in control human Ig-treated mice during demyelination. Immunohistochemistry for MBP confirmed the presence of more myelinated fibers in LtβR–hIg-treated mice (vi) compared with control human Ig-treated mice (v).