The role of the glycoprotein gp130 in serotonin mediator system in mouse brain

Glycoprotein gp130 is involved in signaling out of significant cytokine receptors as interleukin-6 (IL-6), leukemia inhibitory factor and ciliary neurotrophic factor, which play critical role in immunity, inflammation and neurogenesis. IL-6 and brain neurotransmitter serotonin are involved in the mechanism of depression. The aim of this work was to investigat the role of protein gp130 in the regulation of expression of genes, coding the key enzyme of serotonin synthesis--tryptophan hydroxylase 2 (TPH2), 5-HT-transporter, 5-HT(1A)- and 5-HT(2A)-receptors of serotonin. The study was carried out on adult mouse males of AKR and congenic AKR.CBA-D13Mit76 strains, created by transfer of the fragment of chromosome 13 containing the gene coding gp130 protein from CBA/Lac strain to the genome of AKR/J strain. Decreased expression of 5-HT(1A) - 5-HT(2A)-receptor genes in hippocampus midbrain and TPH2 gene in midbrain in AKR.CBA-D13Mit76 mice compared with AKR mice were shown. Activation of nonspecific immunity by bacterial endotoxin lipopolysaccharide (LPS) administration did not affect the genes expression in AKR mice, but increased 5-HT(2A)-receptor expression in midbrain and decreased 5-HT(1A)-receptor expression in cortex in AKR.CBA-D13Mit76 mice. The results indicate: 1) the participation of gp130 in the regulation of TPH2, 5-HT(1A)- and 5-HT(2A)-receptor genes and 2) association of this protein in the genetically determined sensitivity to LPS.     

Distribution of Il6st mRNA and gp130 glycoprotein in various brain structures of mice that differ in intensity of exaggerated freezing reaction (catalepsy)

The glycoprotein gp130 mediates intracellular transduction of signal from receptors of cytokines belonging to the interleukin-6 group. The linkage of the Il6st gene encoding the gp130 protein to heritable predisposition to hypertrophic freezing reaction (catalepsy) has been demonstrated previously in mice. The aim of the present work was to investigate the levels of Il6st mRNA, as well as the distribution of the gp130 protein and the degree of its glycosylation, in five brain regions of mice of the non-cataleptic AKR/J line and the cataleptic lines CBA/LacJ and congenic line AKR.CBA-D13Mit76, which carries the CBA variant of the Il6st gene in the AKR/J genome. These parameters were also studied in mice of the ASC line obtained by backcrossing CBA and AKR mice with the simultaneous selection for the high predisposition to catalepsy. Maximum levels of unglycosylated and glycosylated forms of the gp130 protein were detected in the midbrains of mice from all investigated lines. The highest levels of Il6st mRNA were found in the midbrain, striatum, and hypothalamus of mice of all lines. The level of Il6st mRNA in the striatum of AKR.CBA-D13Mit76 mice was higher than in the striatum of AKR/J mice. Therefore, one can assume that there is a connection between heritable catalepsy and the increased expression of the Il6st gene in the striatum.     

The role of the glycoprotein gp130 in the serotonin mediator system in the mouse brain

Glycoprotein gp130 is involved in signal transduction from the receptors of such important cytokines as interleukin-6 (IL-6), leukemia inhibitory factor, and ciliary neurotrophic factor, which play a critical role in immunity, inflammation, and neurogenesis. Both IL-6 and the brain neurotransmitter serotonin are involved in the mechanism of depression. The aim of this work was to investigate the role of gp130 in regulating the gene expression of the tryptophan hydroxylase 2 (TPH2), the key enzyme of the serotonin synthesis, as well as of the 5-HT transporter and the 5-HT_1A and 5-HT_2A receptors. The study was carried out on adult male mice of the congenic strains AKR and AKR.CBA-D13Mit76; the latter was created by transferring a gp130-containing fragment of chromosome 13 from the CBA/Lac strain into the AKR/J genome. The expression of 5-HT_1A and 5-HT_2A receptor genes in the hippocampus and midbrain and of the TPH2 gene in the midbrain was decreased in AKR.CBA-D13Mit76 mice in comparison to AKR mice. Activation of nonspecific immunity by administration of a bacterial endotoxin lipopolysaccharide did not affect the gene expression in AKR mice but increased the 5-HT_2A receptor expression in the midbrain and decreased the 5-HT_1A receptor expression in the cortex in AKR.CBA-D13Mit76 mice. These results suggest that gp130 is involved in the regulation of TPH2, 5-HT_1A and 5-HT_2A receptor genes and is associated with the genetically determined sensitivity to lipopolysaccharides.     

Genetic structure of hereditary catalepsy in mice

Catalepsy or pronounced freezing is a natural passive defense strategy in animals and a syndrome of some mental disorders in human. Hereditary catalepsy was shown to be associated with depressive-like features in rats and mice. The loci underlying the difference in predisposition to catalepsy between catalepsy-prone CBA/lacJ and catalepsy-resistant AKR/J mice were mapped using congenic line and selective breeding approaches. Three congenic mouse lines (AKR.CBA-D13Mit76C, AKR.CBA-D13Mit76A and AKR.CBA-D13Mit78) carrying the 59- to 70-, 61- to 70- and 71- to 75-c m fragments of chromosome 13 transferred from the CBA to the AKR genome were created by nine successive backcrossing of (CBA × AKR)F₁ on AKR strain. Because catalepsy was found only in the AKR.CBA-D13Mit76C and AKR.CBA-D13Mit76A mice, the major gene of catalepsy was mapped on the fragment of 61–70 c m . Selective breeding of the (CBA × (CBA × AKR))BC backcross generation for high predisposition to catalepsy showed numerous genome-wide distributed CBA-derived alleles as well as the AKR-derived alleles mapped on chromosome 17 and on the proximal parts of chromosomes 10 and 19 that increased the cataleptogenic effect of the major gene.     

Effects of chronic imipramine treatment on behavior in mice of congenic strains AKR and AKR.CBA-D13Mit76 differing in the distal fragment of chromosome 13

Congenic mouse strain AKR.CBA-D13Mit76 carries the 59-70 cM fragment of chromosome 13 transferred from genome of cataleptic CBA/Lac strain to genome of AKR/J none-cataleptic strain. This fragment contains the major gene of predisposition to pinch-induced catalepsy. We investigated contribution of the fragment to regulation of sensitivity of catalepsy, sexual motivation and social investigation to classical tricyclic antidepressant imipramine. The sexual motivation was higher in AKR.CBA-D13Mit76 than in AKR mice. Chronic imipramine treatment (25 mg/kg) reduced it in AKR.CBA-D13Mit76 mice and had no effect on weakly expressed sexual motivation of AKR males. No significant effects of genotype or chronic imipramine treatment on characteristics of social interest were observed. Imipramine failed to alter catalepsy expression in AKR.CBA-DI3Mit76 mice. Possible molecular genetic mechanisms underlying difference in behavioral responses to antidepressant administration are discussed.     

The role of 5‐HT2A receptor and 5‐HT2A/5‐HT1A receptor interaction in the suppression of catalepsy

In the present study, the 5‐HT_2A and 5‐HT_1A receptors functional activity and 5‐HT_2A receptor gene expression were examined in the brain of ASC/Icg and congenic AKR.CBAD13Mit76C mouse strains (genetically predisposed to catalepsy) in comparison with the parental catalepsy‐resistant AKR/J and catalepsy‐prone CBA/Lac mouse strains. The significantly reduced 5‐HT_2A receptor functional activity along with decreased 5‐HT_2A receptor gene expression in the frontal cortex was found in all mice predisposed to catalepsy compared with catalepsy‐resistant AKR/J. 5‐HT_2A agonist DOI (0.5 and 1 mg/kg, i.p.) significantly reduced catalepsy in ASC/Icg and CBA/Lac, but not in AKR.CBAD13Mit76C mice. Essential increase in 5‐HT_1A receptor functional activity was shown in catalepsy‐prone mouse strains in comparison with catalepsy‐resistant AKR/J mice. However, in AKR.CBAD13Mit76C mice it was lower than in ASC/Icg and CBA/Lac mice. The inter‐relation between 5‐HT_2A and 5‐HT_1A receptors in the regulation of catalepsy was suggested. This suggestion was confirmed by prevention of DOI anticataleptic effect in ASC/Icg and CBA/Lac mice by pretreatment with 5‐HT_1A receptor antagonist p‐MPPI (3 mg/kg, i.p.). At the same time, the activation of 5‐HT_2A receptor led to the essential suppression of 5‐HT_1A receptor functional activity, indicating the opposite effect of 5‐HT_2A receptor on pre‐ and postsynaptic 5‐HT_1A receptors. Thus, 5‐HT_2A/5‐HT_1A receptor interaction in the mechanism of catalepsy suppression in mice was shown.     

Selective breeding for catalepsy changes the distribution of microsatellite D13Mit76 alleles linked to the 5-HT serotonin receptor gene in mice

Catalepsy (pronounced motor inhibition) is a natural defensive reaction against predator. Recently, the quantitative trait locus for catalepsy was mapped on mouse chromosome 13 near the 5-HT(1A) serotonin receptor gene. Here, the linkage between catalepsy and the 5-HT(1A) receptor gene was verified using breeding experiment. Selective breeding for high predisposition to catalepsy was started from backcross BC[CBA x (CBA x AKR)] generation between catalepsy-prone (CBA) and catalepsy-resistant (AKR) mouse strains. CBA and AKR strains also differed in the 5-HT(1A) receptor functional activity. A rapid increase of cataleptic percentage from 21.2% in the backcrosses to 71% in the third generation of selective breeding (S3) was shown. The fragment of chromosome 13 including the 5-HT(1A) receptor gene was marked with D13Mit76 microsatellite. Breeding for catalepsy increased the concentration of CBA-derived and decreased the concentration of AKR-derived alleles of microsatellite D13Mit76 in the S1 and S2. All mice of the S9 and S12 were homozygous for CBA-derived allele of D13Mit76 marker. Mice of the S12 showed CBA-like receptor activity. These findings indicate that selective breeding for behavior can involve selection of polymorphic variants of the 5-HT(1A) receptor gene.     

Effect of transfer of fragment of chromosome 13, containing gene i16st on parameters of mouse temperature homeostasis

Mechanisms of maintenance of temperature homeostasis in warm and under effect of cold were studied in mice of AKR strain and of its coherent strain AKR.CBA-D13Mit76 with the changed gene i16st encoding the gp 130 receptor, via which IL-6 performs its action. Under thermoneutral conditions and under action of cold, there were recorded temperature parameters, total oxygen consumption, carbon dioxide release, respiratory coefficient, and electrical muscle activity. Animals of the studied strains demonstrated different reactions to equal cold effect. At cooling, all mice of the AKR strain entered the state of hypothermia by decreasing metabolism. Mice of the AKR.CBA-D13Mit76 line showed 2 different types of reaction: 39 % of the animals of this strain reacted like mice of the AKR strain, but the majority (61 %) resisted actively to the cold action, which was manifested as a marked increase of metabolism. Taking into account the gene penetrance, this can indicate effect of the gene i16st on choice of the active ("regulated") or passive ("dependent") way of the organism reacting to temperature actions.     

Expression of genes in the 111.35–116.16 million bp fragment of chromosome 13 in brain of mice with different predisposition to hereditary catalepsy

Catalepsy is a pathological animal behavior that is usually associated with dysfunctions in the striatal pallidal system of the brain and can be caused by different reasons. It was previously demonstrated that hereditary catalepsy is linked to the 111.35–116.16 million bp fragment of chromosome 13 in mice. The level of mRNA content in 42 genes localized in this fragment was determined in the study. Two brain departments that are functionally associated with catalepsy (striatum and substantia nigra) were studied in mice from AKR line (resistant to catalepsy), cataleptic CBA line, and recombinant cataleptic AKR.CBA-D13Mit76 (D13) line. The latter was obtained by the transfer of indicated fragment of chromosome 13 from the CBA line to the genome of the AKR line. It was found that two genes (Ndufs4 and Ppap2a) in the striatum and ten genes (Esm1, Fst, Gm10735, Gm15322, Gm15323, Gm15324, Gm15325, Il6st, Il31ra, and Itga1) in the substantia nigra differ in the level of mRNA expression in AKR and D13 lines. The Mcidas gene mRNA level is lower in both structures in D13 line mice than in the AKR line. The expression of the Hspb3 and Mocs2 genes (that encode heat shock protein and molybdenum cofactor synthesis, respectively) is lower in the substantia nigra of CBA and D13 cataleptic line mice than in the AKR line resistant to catalepsy. These genes are considered to be the most likely candidate genes of the catalepsy. The coexpression of a large amount of genes in these brain structures in sick animals indicates the existence of a complex gene network that regulates hereditary catalepsy.     

Effect of transfer of the chromosome 13 fragment containing gene <Emphasis Type="Italic">il6st</Emphasis> on parameters of temperature homeostasis in mice

Mechanisms of maintenance of temperature homeostasis in warm and under effect of cold were studied in mice of AKR line and of its coherent line AKR.CBA-D13Mit76 with the changed gene i16 encoding the gp130 receptor via which IL-6 performs its action. Under thermoneutral conditions and under action of cold, there were recorded temperature parameters, total oxygen consumption, carbon dioxide release, respiratory coefficient, and electrical muscle activity. Animals of the studied lines demonstrated different reactions to equal cold effect. At cooling, all mice of the AKR line entered the state of hypothermia by decreasing metabolism. Mice of the AKR.CBAD13Mit76 line showed 2 different types of reaction: 39% of animals of this line reacted like mice of the AKR line, but the majority (61%) resisted actively to the cold action, which was manifested as a marked increase of metabolism. Taking into account the gene penetrance, this can indicate effect of the gene i16 on choice of the active (“regulated”) or passive (“dependent”) way of the organism reacting to temperature actions.     

Selection for the Predisposition to Catalepsy Enhances Depressive-like Traits in Mice

Immobility reaction or catalepsy is a natural passive defensive (cryptic) behavioral response to the appearance of a predator. Selection for high predisposition to catalepsy has been performed in a population of (CBA × (CBA × AKR)) backcrosses of the crossing between mouse lines prone and resistant to catalepsy (CBA and AKR, respectively). A rapid increase in the number of animals with catalepsy has been observed: from 23% in backcrosses to 71% in the S₃ generation. Selection for catalepsy does not affect mouse anxiety in the open field and plus-maze tests. However, S₈ and S₉ mice are characterized by a decreased motor activity in the open-field test and an increased immobility in the forced swim and tail suspension tests, which is interpreted as an increase in “ depressiveness.” The results indicate that genetically determined catalepsy is related to depressive-like characteristics of defensive behavior.     

Learning and extinction of passive avoidance in mice with high predisposition to catalepsy

The passive avoidance learning and extinction in mice strain ASC with high predisposition to catalepsy as compared with mice of CBA and AKR strains were analyzed. Impairment of fear extinction as a major symptom of depression was revealed in ASC mice, whereas a delay of extinction in CBA mice and fast formation of new inhibitory learning in AKR mice were found. It is suggested that the long persistence of fear in ASC mice results from increased anxiety during the repeated presentation of a context in the absent of aversive stimulus. Defect of fear inhibition in ASC mice makes it possible to use this strain of mice as genetic model of depression.     

Interleukin-6/glycoprotein 130-dependent pathways are protective during liver regeneration

After tissue loss the liver has the unique capacity to restore its mass by hepatocyte proliferation. Interleukin-6 (IL6)-deficient mice show a lack in DNA synthesis after partial hepatectomy (PH). To define better the role of IL6 and its family members for liver regeneration after PH, we used conditional knockout mice for glycoprotein 130 (gp130), the common signal transducer of all IL6 family members. We show that gp130-dependent pathways control Stat3 activation after PH. By using gene array analysis, we demonstrate that c-jun, NF-kappa B, c-myc, and tumor necrosis factor receptor expression is gp130-dependent. However, in gp130-deleted mice only minor effects on cell cycle and on the maximum of DNA synthesis after PH were found compared with controls. As in conditional gp130 animals, the acute phase response was completely abolished, we considered that other means are essential to define the role of gp130-dependent pathways for liver regeneration. LPS stimulation in gp130-deleted and also IL6 -/- animals after PH leads to a significant reduction in survival and DNA synthesis, which was associated with decreased Bcl-xL expression and higher apoptosis in the liver. These results indicate that the phenotype concerning the reduction in DNA synthesis might be linked to the degree of infection after PH. Thus our results suggest that the role of gp130-dependent signaling is not a direct influence on cell cycle progression after partial hepatectomy but is to activate protective pathways important to enable hepatocyte proliferation.     

The relation of tryptophan hydroxylase activity in the brain and the manifestation of catalepsy in mice

Pinch-induced catalepsy and thyptophan hydroxylase (TPH) activity in striatum and midbrain were determined in male mice of 6 inbred strains. Pronounced catalepsy was found in the only mice strain--CBA. TPH activity in midbrain and especially in striatum of CBA mice was higher than in the strains, which did not display catalepsy. The experimental situation, which promotes the development of highly aggressive CBA males, caused a decrease in TPH activity in striatum and these mice did not express genetic predisposition to catalepsy. The results indicate that TPH activity in striatum is involved in the mechanism of catalepsy in mice.     

Genetic control of catalepsy in mice

Pinch-induced immobility (catalepsy) was studied in mice of 9 inbred strains. CBA mice were found to be different from those of other strains both by the highest percent of cataleptics (56%) and by the highest duration of immobility. The Mendelian analysis of predisposition to catalepsy was performed on CBA and AKR mice strains contrasting in this feature. Reciprocal F1 hybrids did not display any catalepsy. Manifestation of cataleptics in the F2 and in CBA x F2 backcrosses suggested that catalepsy was inherited as a recessive, monogenic, autosomal feature.     

Involvement of striatum serotonergic system in the expression of genetically defined catalepsy

The activity of the rate-limiting enzyme of serotonin biosynthesis, tryptophan hydroxylase, and specific binding of [3H]ketanserin to 5-HT2A receptors and [3H]8-OH-DPAT to 5-HT1A receptors in the striatum of genetically predisposed to catalepsy rats and mice have been studied. The activity of tryptophan hydroxylase in the striatum of rats bred for many generations for predisposition to catalepsy was higher than in nonselected rats. Mice of highly susceptible to pinch-induced catalepsy CBA strain also differed from noncataleptic AKR and C57BL mouse strains by higher activity of tryptophan hydroxylase in striatum. Inhibition of tryptophan hydroxylase with p-chlorophenylalanine or p-chloromethamphetamine significantly decreased immobility time in genetically predisposed to catalepsy rats and mice. A decrease in the [3H]ketanserin specific binding in the striatum of cataleptic rats and CBA mice was found indicating a decrease in 5-HT2A receptor density. A decrease in [3H]8-OH-DPAT binding in striatum of cataleptic rats but not in CBA mice was shown. These results indicate that serotonergic system of striatum is involved in the expression of hereditary catalepsy and suggest that hereditary catalepsy may result from genetic changes in the regulation of serotonin metabolism and reception in striatum.     

Molecular dissection of gp130-dependent pathways in hepatocytes during liver regeneration

Interleukin-6 (IL-6) via its signal transducer gp130 is an important mediator of liver regeneration involved in protecting from lipopolysaccharide (LPS)-induced liver injury after partial hepatectomy (PH). Here we generated mice either defective (Delta) in hepatocyte-specific gp130-dependent Ras or STAT activation to define their role during liver regeneration. Deletion of gp130-dependent signaling had major impact on acute phase gene (APG) regulation after PH. APG expression was blocked in gp130-DeltaSTAT animals, whereas gp130-DeltaRas mice showed an enhanced APG response and stronger SOCS3 regulation correlating with delayed hepatocyte proliferation. To define the role of SOCS3 during hepatocyte proliferation, primary hepatocytes were co-stimulated with IL-6 and hepatocyte growth factor. Higher SOCS3 expression in gp130-DeltaRas hepatocytes correlated with delayed hepatocyte proliferation. Next, we tested the impact of LPS, mimicking bacterial infection, on liver regeneration. LPS and PH induced SOCS3 and APG in all animal strains and delayed cell cycle progression. Additionally, IL-6/gp130-dependent STAT3 activation in hepatocytes was essential in mediating protection and thus required for maximal proliferation. Unexpectedly, oncostatin M was most strongly induced in gp130-DeltaSTAT animals after PH/LPS-induced stress and was associated with hepatocyte proliferation in this strain. In summary, gp130-dependent STAT3 activation and concomitant SOCS3 during liver regeneration is involved in timing of DNA synthesis and protects hepatocyte proliferation during stress conditions.     

Selection for the predisposition to catalepsy enhances depressive-like traits in mice

Immobility reaction or catalepsy is a natural passive defensive (lurking) behavioral response to the appearance of a predator. Selection for high predisposition to catalepsy has been performed in a population of (CBA x (CBA x AKR)) backcrosses of the crossing between mouse lines sensitive and resistant to catalepsy (VBA and AKR, respectively). A rapid increase in the number of animals with catalepsy has been observed: from 23% in backcrosses to 71% in the S3 generation. Selection for catalepsy does not affect mouse anxiety in the open field and plus-maze tests. However, S8 and S9 mice are characterized by a decreased motor activity in the open-field test and an increased immobility in the forced swim and tail suspension tests, which is interpreted as an increase in "depressiveness." The results indicate that genetically determined catalepsy is related to depressive-like characteristics of defensive behavior.     

The classic signalling and trans‐signalling of interleukin‐6 are both injurious in podocyte under high glucose exposure

Interleukin‐6 (IL‐6) is a multifunctional cytokine that employs IL‐6 classic and trans‐signalling pathways, and these two signal channels execute different or even opposite effects in certain diseases. As a cardinal event of diabetic kidney disease (DKD), whether the podocyte abnormalities are associated with IL‐6 signalling, especially classic or trans‐signalling respectively, remains unclear. In this study, we identified that the circulatory IL‐6, soluble IL‐6R (sIL‐6R) and soluble glycoprotein 130 (sgp130) levels are elevated in patients with DKD. The expressions of membrane‐bound IL‐6R (mIL‐6R), sIL‐6R and gp130 are enhanced in kidney cortex of diabetic mice accompanying with activated STAT3 by tyrosine 705 residue phosphorylation, while not serine 727. Above data infer both classic signalling and trans‐signalling of IL‐6 are activated during DKD. In cultured podocyte, high glucose (HG) up‐regulates the expression of mIL‐6R and gp130, as well as STAT3 tyrosine 705 phosphorylation, in a time‐dependent manner. Entirely blocking IL‐6 signalling by gp130 shRNA, gp130 or IL‐6 neutralizing antibodies attenuates HG‐induced podocyte injury. Interestingly, either inhibiting IL‐6 classic signalling by mIL‐6R shRNA or suppressing its trans‐signalling using sgp130 protein dramatically alleviates HG‐induced podocyte injury, suggesting both IL‐6 classic signalling and trans‐signalling play a detrimental role in HG‐induced podocyte injury. Additionally, activation of IL‐6 classic or trans‐signalling aggravates podocyte damage in vitro. In summary, our observations demonstrate that the activation of either IL‐6 classic or trans‐signalling advances podocyte harming under hyperglycaemia. Thus, suppressing IL‐6 classic and trans‐signalling simultaneously may be more beneficial in podocyte protection and presents a novel therapeutic target for DKD.