Immunoreactivity of the calbindin D28k in the parahippocampal gyrus of chinchilla

Szalak, Radosław; Jaworska-Adamu, Jadwiga; Rycerz, Karol; Kulik, Paweł; Arciszewski, Marcin B.

doi:10.2478/bvip-2013-0067

Cited by 1 publication

(1 citation statement)

References 21 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Although the physiological role(s) of CR are far from being fully understood, it is generally accepted that it acts as a neuronal modulator and regulator of synaptic plasticity Kuźnicki 1999, Schwaller et al 2002). Because of its specific localization in CNS, CR has received growing research attention in recent years (Maskey et al 2012, Szalak et al 2013, Bae et al 2015. Using the immunohistochemical technique the distribution patterns of CR have been described in discrete regions of the mammalian brain including the dolphin (Cozzi et al 2014), rodents (Edelstein et al 2010, Druga et al 2015, rabbit , cat (Rahman and Baizer 2007), monkey (Reynhout and Baizer 1999) and human (Prensa et al 2003).…”

Section: Introductionmentioning

confidence: 99%

Immunocytochemical detection of calretinin in the claustrum and endopiriform nucleus of the chinchilla

Szalak¹,

Matysek²,

Mozel³

et al. 2015

Polish Journal of Veterinary Sciences

View full text Add to dashboard Cite

Calretinin (CR) as a buffer and sensor protein plays an important role in regulatory processes of Ca 2+ and anty-apoptotic cellular protection. In the present study, immunohistochemical peroxidase-antiperoxidase (PAP) method was used in order to determine the numbers, morphology, morphometry and distribution pattern of CR in neurons of the chinchilla's claustrum (Cl) and endopiriform nucleus (EN). In Cl and EN the presence of several classes of neurons with different immunoreactivity to CR was found. In Cl, CR-immunoreactive (IR) neurons were predominantly found in close vicinity to insular border while CR-IR neurons were evenly scattered throughout EN. In general, immunoreaction to CR was observed in neuronal cytoplasm, nucleus and in fibres-like nerve extensions. Statistical analysis showed the differences between average large diameter as well as cross-sectional area of CR-IR neurons present in Cl and EN. It is suggested, that CR acting as a calcium binding protein may play a role in neuronal network. Further co-localization studies are necessary to fully elucidate neurophysiology and neuropathology of the chinchilla's Cl and EN neurons.

show abstract