Table 1.
Molecules involved in PNI.
| Class of Molecules | Molecule | Role in PNI | Refs |
|---|---|---|---|
| Axonal guidance molecules | SLIT2–ROBO | Increased expression correlate with PNI and metastasis | [80,84] |
| Interleukin | LIF | Secreted by CAFs, increases neural plasticity and PNI | [89] |
| Chemokines and receptors | CCL2–CCR2 | Recruits TAMs to cancer site promoting PNI via GDNF–RET signaling | [56,115,116,117,118] |
| CXCR1–CX3CL1 | Increases PNI and promotes cancer–nerve adhesion | [20,121,122,123] | |
| Neurotrophinsand receptors | NGF–TrkA/p75NTR | Increases growth, proliferation and nerve–cancer affinity | [7,18,51,116,124,125,126,127,128,129,130,131,132,133,134,135,136] |
| BDNF–TrkB | Increases in vitro proliferation; linked to metastasis | [137,138,139] | |
| NT3–TrkC | Increases cancer invasiveness, possible role in pain generation | [124,125,140,141] | |
| GDNF family and receptors | GDNF–GFRα1–RET | Increases PNI; TAMs promote PNI through GDNF secretion | [2,64,83,142,143,144] |
| Neurturin–GFRα2 | Increased expression correlates to enhanced PNI | [128,145] | |
| Artemin–GFRα3 | Promotes cancer migration and PNI | [146,147,148] | |
| Cellular adhesion molecules | NCAM | Reduces cell—cell adhesion; increased expression contributes to PNI and metastasis | [92,149,150,151] |
| L1CAM | Mediates homotipic interactions between cancer and nerve increasing PNI; upregulates MMP2–9 expression facilitating cancer progression | [152,153,154,155,156] | |
| MUC1 | Increased levels promote cancer adhesion to nerves and metastasis | [88,157,158,159,160,161,162] | |
| MMPs | MMP2–9 | Increases PDAC aggressiveness | [163,164,165] |