sed on that, we can speculate that the claustrum could be reciprocally connected to the insular Tideglusib web cortex via the extreme capsule. The original description of Gng2 in the rat claustrum implied that the protein was expressed in neurons, although the resolution of the images was directed to identify relatively large structures and not single cells and no co-localization studies were performed. Our data show that Gng2 is co-localized with GFAP, and therefore expressed by astrocytes, a fact substantiated by the morphology of positive elements observed at the confocal Gng2 and NetrinG2 in the Human Claustrum microscope. Failure to co-localize Gng2 with the neurofilament protein N200 further suggest that the protein is present in glial cells. However, given the limits of post-mortem samples, our data cannot exclude the presence of Gng2 also in a population of neurons, as formerly reported in the human cerebral cortex. Further studies, with perfusion fixation performed in rodents, could help solve the issue. Our findings regarding the Netrin-G2 showed that this marker protein was present in neurons of the claustrum and insular cortex, but not in the medially adjacent putamen. These results were in line with those described in the monkey claustrum where, employing in situ hybridization, a strong expression of NetrinG2 was observed. Latexin positive neurons were reported to be present in the cat claustrum and insular cortex. In the present study, we detected no latexin-immunoreactive element in the section of the human claustrum and adjacent areas, including the cortex. Possible explanations include species-specific variability or potential loss of signal due to post-mortem interval occurred before sampling. However, we emphasize that latexin mRNA was not detected in the monkey neocortex and the selective value of this protein as a claustrum marker should be further investigated, at least in primates. In our experimental series, immunostaining with both Gng2 and Netrin-G2 were able to well delineate the structure of the claustrum and its borders. However, in the case of Gng2, the presence of immunostained elements in the adjacent capsules and insular cortex may either indicate a lesser specificity of the protein as marker in the human, or a common ontogenetic origin of all positive formations. To this effect, the findings reported in this article may contribute to an understanding of the ontogeny of this enigmatic structure. The ontogeny of the claustrum is still open for discussion. Three main theories exist. According to the pallial theory, the claustrum is considered a derivative of insular cortex. The sub-pallial PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/2221058 theory depicted the claustrum as derived from the ganglionic eminence or paleostriatal angle via a ventrolateral migration of the ventricular matrix along with the basal ganglia. The third theory, or hybrid theory, supports the hypothesis that the claustrum has both a pallial and a sub-pallial derivation. Gene expression studies in mice demonstrated the presence of pallial markers in the claustrum and in the basal amygdala but not in the striatal structures. Our data provide evidence in support of the pallial theory, because the claustrum and the insular inner layer revealed a very similar Gng2-ir and Netrin-G2 distribution pattern while no immunostaining was detected in the putamen. Our findings also support results obtained in non-human primates, in which the expression of Netrin-G2 is confined in the extreme capsule, in layer 6 of t