17 research outputs found
Galanin Transgenic Mice with Elevated Circulating Galanin Levels Alleviate Demyelination in a Cuprizone-Induced MS Mouse Model
Multiple Sclerosis (MS) is a demyelinating autoimmune disease of the central nervous system (CNS) with a presumed autoimmune etiology. Approved treatments for MS are immunoregulatory and are able to reduce the inflammatory components of the disease. However, these treatments do not suppress progressive clinical disability. Approaches that directly protect myelin-producing oligodendrocytes and enhance remyelination are likely to improve long-term outcomes and reduce the rate of axonal damage. Galanin (GAL) is a bioactive neuropeptide that is widely distributed throughout the nervous system and has diverse neuromodulatory effects. In this study, using the cuprizone (CPZ) demyelination model of MS, we demonstrate that GAL has pronounced neuroprotective effects with respect to demyelination and remyelination. Using our GAL transgenic mouse (GAL-Tg), we identified a novel attenuation of OLs against CPZ induced demyelination, which was exerted independently of progenitor cells. Alleviation of myelin breakdown in the GAL-Tg mice was observed to be significant. Furthermore, we observed changes in the expression of the GAL receptor GalR1 during the demyelination and remyelination processes. Our data strongly indicate that GAL has the capacity to influence the outcome of primary insults that directly target OLs, as opposed to cases where immune activation is the primary pathogenic event. Taken together, these results suggest that GAL is a promising next-generation target for the treatment of MS
Changes in Galanin Systems in a Rat Model of Post-Traumatic Stress Disorder (PTSD).
Post-traumatic stress disorder (PTSD) is a chronic syndrome triggered by exposure to trauma and a failure to recover from a normal negative emotional reaction to traumatic stress. The neurobiology of PTSD and the participation of neuropeptides in the neural systems and circuits that control fear and anxiety are not fully understood. The long-term dysregulation of neuropeptide systems contributes to the development of anxiety disorders, including PTSD. The neuropeptide galanin (Gal) and its receptors participate in anxiety-like and depression-related behaviors via the modulation of neuroendocrine and monoaminergic systems. The objective of this research was to investigate how Gal expression changes in the brain of rats 2 weeks after exposure to footshock. Rats exposed to footshocks were subdivided into high responders (HR; immobility>60%) and low responders (LR; immobility<40%) based on immobility elicited by a novel tone one day after exposure. On day 14, rats were anesthetized, and the amygdala, hypothalamus, pituitary and adrenal glands were removed for analysis using real-time polymerase chain reaction (RT-PCR). Gal mRNA levels were increased in the amygdala and hypothalamus of HR compared with the control and LR. In contrast, Gal mRNA levels were decreased in the adrenal and pituitary glands of HR compared with the control and LR. Thus, the differential regulation (dysregulation) of the neuropeptide Gal in these tissues may contribute to anxiety and PTSD development
Regulation of galanin gene expression in gonadotropin-releasing hormone neurons during the estrous cycle of the rat
Galanin is colocalized with GnRH in neurons of the hypothalamus and basal
forebrain of female rats, and this neuropeptide may play a role in the
generation of the midcycle surge of gonadotropin secretion. We tested the
hypothesis that galanin gene expression in GnRH cells increases during
proestrus. To accomplish this, we killed groups of adult female rats at
1200 and 1800 h on the day of proestrus as well as at 1800 h on the day of
estrus and used double labeling in situ hybridization and image analysis
to estimate and compare the levels of galanin mRNA in cells coexpressing
GnRH mRNA. GnRH mRNA was detected with an antisense cRNA probe labeled
with the hapten digoxigenin, while the galanin cRNA probe was labeled with
35S and detected by autoradiography. There was no significant difference
in the total number of GnRH cells identified in each animal in any of the
different groups in any experiment. The relative number of silver grains
over these cells, reflecting galanin mRNA content in GnRH neurons
(identified by their purple color), was counted with a computerized image
analysis system. In an initial experiment, we observed a 2-fold (P < 0.03)
higher galanin mRNA signal level in the animals killed at 1800 h than in
those killed at 1200 h on the day of proestrus. Animals killed at 1800 h
on the day of estrus had galanin mRNA signal levels that were not
statistically different from those in the proestrous 1800 h group,
indicating that the increase in galanin mRNA at proestrus is maintained
for at least 24 h. Galanin mRNA levels in GnRH neurons returned to basal
levels equivalent to those in the proestrous 1200 h group by 1000 h on
diestrous day 1. In conjunction with the studies of galanin gene
expression in GnRH neurons, we compared the relative cellular contents of
GnRH mRNA among the same groups. Here, we used single labeling isotopic in
situ hybridization for GnRH mRNA and computerized image analysis to count
the resulting silver grains. We could detect no difference in GnRH mRNA
signal levels (proestrus, 1200 h vs. proestrus, 1800 h vs. estrus, 1800
h). In a final experiment, we investigated the possible role of estrogen
in the induction of galanin mRNA expression at proestrus by comparing
relative galanin mRNA contents in GnRH neurons among groups of
ovariectomized, intact (diestrous day 1), and ovariectomized 17
beta-estradiol-replaced female rats.(ABSTRACT TRUNCATED AT 400 WORDS
The effect of GAL over-expression on body weight.
<p>Body weight was measured at the age of 8–9 weeks old as the starting point 0 w. The raw body weight growth in normal control groups (A) and the CPZ-treated groups (B) is shown. Both the cuprozone groups and the cuprizone-challenge plus 3-week recovery groups were measured at the same time. Data are expressed as the mean ± SEM. (n = 12–17 per group). * p<0.05, ** p<0.01, *** p<0.001.</p
RNA sample sources.
<p>The illustration on the left represents the mouse brain. The top dashed line represents the first coronal cut, 5 mm away from the edge of olfactory bulb. The bottom dashed line represents the second coronal cut, 2.5 mm away from the first cut. The illustration on the right represents the brain section isolated on the left. The tissue within the dashed rectangle, containing mainly corpus callosum and part of the cortex, was used for RNA extraction. Abbreviations: CC – corpus callosum; LV – lateral ventricle; aca – anterior commissure.</p
Increased number of PDGFR-α positive cells in WT mice that underwent the CPZ-induced demyelination challenge.
<p>WT and Tg mice were given CPZ challenge for six weeks (6wCPZ, B and E) while the control mice (CLT, A and D) received normal CPZ-free rodent chow. After six weeks of challenge, two groups of animals (6wCPZ+3wR, C and F) were allowed to recover for three weeks on a normal CPZ-free diet. The bar graph shows the results of the optical-density measurements of the PDGFR-α-positive cells; a significant difference was observed between the 6wCPZ+3wR WT and Tg groups. The scale bar represents 200 µm in the low-magnification. Data are expressed as mean ± SEM values (n = 3 per group). *p<0.05, ** p<0.01.</p
Primer pairs provided by SABiosciencesâ„¢.
<p>Primer pairs provided by SABiosciencesâ„¢.</p
Primary antibodies used for immunohistochemistrical staining.
<p>Abbreviations: MBP – myelin basic protein; GST-π – Glutathione S-Transferase π form; GFAP – glial fibrillary acidic protein; PDGFR-α – alpha-type platelet-derived growth factor receptor; OPC – oligodendrocyte precursor cell; OL – oligodendrocyte.</p
Galanin (Gal) mRNA levels in the Lateral Hypothalamus.
<p>Gal mRNA levels in shocked rats subgrouped into low responders (LR) and high responders (HR) at 14 days post-shock. The HR group exhibited an increased Gal mRNA level compared with the controls. There was no significant difference between the HR and LR. * * p<0.01. The values are expressed as mean ±SEM</p