A Comprehensive Overview of the Neural Mechanisms of Light Therapy
Xiaodan Huang1 · Qian Tao2 · Chaoran Ren1
2024,40(3):350–362 [
Abstract] [
SpringerLink]
[PDF]
The Multiple Roles of Autophagy in Neural Function and Diseases
Yan‑Yan Li1
· Zheng‑Hong Qin1
· Rui Sheng1
2024,40(3):363–382 [
Abstract] [
SpringerLink]
[PDF]
Brain Pathology in COVID-19: Clinical Manifestations and Potential Mechanisms
Zhixing Xu1
· Hui Wang2
· Siya Jiang3
· Jiao Teng4
· Dongxu Zhou5
· Zhong Chen2,6 ·
Chengping Wen7
· Zhenghao Xu6,7
2024,40(3):383–400 [
Abstract] [
SpringerLink]
[PDF]
Ion Channel Dysregulation Following Intracerebral Hemorrhage
Xiangyu Zhang1,2 · Yan Zhang1,2 · Qiuyang Su1,2 ·
Yang Liu1,2 · Zhe Li1,2 · V. Wee Yong3
·
Mengzhou Xue1,2
2024,40(3):401–414 [
Abstract] [
SpringerLink]
[PDF]
Prefrontocortical Astrocytes Regulate Dominance Hierarchy in Male Mice
Yong Tang1,2 · Hai‑Yan Yin1
· Peter Illes1,3
2024,40(3):415–417 [
Abstract] [
SpringerLink]
[PDF]
Nociceptors and Macrophages in Bacterial Meningitis: Partners in Crime?
Fang Gao1 · Hongzhen Hu1,2,3,4
2024,40(3):418–420 [
Abstract] [
SpringerLink]
[PDF]
Lan et al. investigated that Egr-1 deficiency leads to a decrease in TGFβ1 in vitro and in vivo neuronal cells and inhibits both Smad and non-Smad signaling pathways. It was revealed that Egr-1 plays a key role in neuronal survival mediated by TGFβ1 signaling pathway. The backbone of the cover is a double helix of DNA, and early growth response protein 1 (Egr-1, red) is a transcription factor that triggers transcription of the downstream gene TGFβ1 (green). Egr-1 affects neurodegeneration in EAE mice by regulating a signaling pathway associated with TGFβ1 (a healthy mouse above, a disease mouse below). See pages 283–292. (Cover provided by Xinyan Han).
