Effects of dopamine agonists on calling behavior in the green tree frog, Hyla cinerea.

Dopamine (DA) is an important neurotransmitter involved in social behaviors, such as courtship and pair-bonding. In the green tree frog (Hyla cinerea), calling behavior is the primary social behavior used for mate attraction, and is critical for the reproductive success of the species. Our study examined how DA influences advertisement calling behavior of the green tree frog. In a field environment, calling males were treated with either a DA receptor-specific agonist (SKF-38393 or quinpirole), a non-specific DA agonist (apomorphine), or a control Ringer's solution, and vocalizations were recorded after a 20 min post-injection period. Behavioral analyses focused on if and when the frogs called (call latency), and the number of calls produced during post-injection recordings (call rate). There were significant differences in all measurements that varied with treatment and/or dose. The results demonstrate that activation of D2-like receptors has an inhibitory effect on vocalization in the green tree frog, while the D1-like and non-specific DA agonists do not affect calling behavior. These findings coincide with behavioral data from other taxa, and support the function of D2-like receptors in the inhibition of certain social behaviors. Overall, the results suggest conservation for DA in social behaviors across vertebrates.

Effects of amphetamine on conditioned place preference and locomotion in the male green tree frog, Hyla cinerea.

Neural systems mediating motivation and reward have been well described in mammalian model systems, especially with reference to reward properties of drugs of abuse. Far less is known of the neural mechanisms underlying motivation and reward in non-mammals. The behavioral procedure conditioned place preference (CPP) is often used to quantify reward properties of psychoactive drugs. The indirect dopamine agonist d-amphetamine (AMPH) is known for its properties for inducing CPP in mammals and for inducing dose-related stereotypic movements. We used the green tree frog, Hyla cinerea, to examine whether AMPH could induce both CPP and a dose response change in motor behaviors. We demonstrated that H. cinerea can show place conditioning to AMPH following 14 days of training and that AMPH can cause reversal of a strong baseline place preference. Amphetamine-treated animals (20 mg/kg b.w.) received the drug paired with the previously non-preferred context, and vehicle paired with the preferred context. Control animals received vehicle in both preferred and non-preferred contexts. Amphetamine-treated animals switched context preference following conditioning, whereas control animals did not. We also demonstrated in an open-field experiment that AMPH did not cause any noticeable changes in motor movement or behaviors across a range of doses (0, 10, 20 mg/kg b.w.). This study represents the first examination of the behavioral effects of AMPH in amphibians. These results may contribute to a better understanding of the function and pharmacology of a reward system that may mediate natural behaviors in frogs and other vertebrates.

White matter volume and anisotropy in preterm children: a pilot study of neurocognitive correlates.

The objectives of this study were to evaluate the differences in whole brain white matter (WM) volume and anisotropy between preterm and term children and to determine the relationships with cognitive outcome. Twenty-five low birth weight (BW), preterm, neurologically normal children between 8.8 and 11.5 y of age were recruited for volumetric and diffusion-tensor magnetic resonance imaging (DTI), together with 13 age-matched term control subjects. Subsequent intelligence quotient (IQ) testing was performed for 21 preterm children within 6 mo of imaging studies. We computed the mean volume and fractional anisotropy (FA) of the whole brain WM and compared the differences between the two groups. Mean WM volume and FA were significantly lower in the preterm group (p = 0.014 and p < 0.001, respectively). Multiple regression analysis found both WM volume and FA to be independent variables significantly affecting full scale IQ (FSIQ) (r2 = 0.407, p = 0.021 and r2 = 0.496, p = 0.005, respectively) after adjusting for BW, gestational age (GA), and gender. In the evaluation of the whole brain WM of preterm children, we found that both volume and FA remain reduced at late childhood with both parameters significantly affecting long-term cognitive outcome.

Apomorphine effects on frog locomotor behavior.

The neuroanatomical pathways of the DA systems have been shown to be largely conserved across many vertebrate taxa. It is less certain whether the structural similarities seen between mammals and amphibians reflect a similar functional homology. DA is well known for its role in facilitating motor behaviors in mammals. We examined whether a similar role for DA exists in amphibians using the Northern Leopard Frog (Rana pipiens). We investigated the effects of the nonspecific DA agonist, apomorphine (APO) on a complex motor task that included two distinct components known to be differentially modulated by DA in mammals: swimming and climbing. We demonstrated that a high single dose of APO (20 mg/kg, body weight) strongly increased the amount of time spent completing the motor task. Furthermore, we showed that although APO did not significantly alter several aspects of swimming behavior, two aspects of climbing behavior were disrupted. Both climbing speed and climbing ability were impaired by APO treatment. These results increase our understanding of DA function in amphibians and add to our understanding of structure-function homologies of dopamine function across vertebrate taxa.

Neuroanatomical distribution of vasotocin and mesotocin in two urodele amphibians (Plethodon shermani and Taricha granulosa) based on in situ hybridization histochemistry.

Previous research suggests that considerable species-specific variation exists in the neuroanatomical distributions of arginine vasotocin (AVT) and mesotocin (MST), non-mammalian homologues of vasopressin and oxytocin. An earlier study in rough-skinned newts (Taricha granulosa) indicated that the neuroanatomical distribution of cells labeled for AVT-immunoreactivity (ir) was greater in this urodele amphibian than in any other species. It was unknown whether the widespread distribution of AVT-ir is unique to T. granulosa or a feature common among salamanders. Using in situ hybridization (ISH) histochemistry and gene-specific riboprobes, the current study labeled AVT and MST mRNA in T. granulosa and the red-legged salamander (Plethodon shermani). In T. granulosa, AVT ISH-labeled cells were found to be widespread and localized in brain areas including the dorsal and medial pallium, lateral and medial septum, bed nucleus of the stria terminalis, amygdala, preoptic area, ventral hypothalamus, nucleus isthmus, tectum mesencephali, inferior colliculus, and hindbrain. In P. shermani, the distribution of AVT ISH-labeled neurons matched that of T. granulosa, except in the lateral septum, ventral hypothalamus, and inferior colliculus, but did however include labeled cell bodies in the lateral pallium. The distribution of MST ISH-labeled cells was more restricted than AVT ISH labeling and was limited to regions of the preoptic area and ventral thalamus, which is consistent with the limited distribution of MST/OXY in other vertebrates. These findings support the conclusion that urodele amphibians possess a well-developed vasotocin system, perhaps more extensive than other vertebrate taxa.

Androgen effects on tyrosine hydroxylase cells in the northern leopard frog, Rana pipiens.

The interaction between gonadal steroids and dopamine neurons has been examined extensively in rodent model systems. However, there have been few investigations examining the functional relation between gonadal steroids and dopaminergic systems in nonmammalian taxa, and none in amphibians. We examined the effects of testosterone (T) and dihydrotestosterone (DHT) on changes in tyrosine hydroxylase immunoreactive (TH-ir) neuron number in the fore- and midbrain of male Rana pipiens, the Northern leopard frog, using a whole-mount immunohistochemical procedure. Gonadectomized males had significantly fewer TH-ir neurons in the medial preoptic area (POA), suprachiasmatic nucleus (SCN), and the caudal hypothalamus/posterior tubercular region (HY/TP) compared with T-implanted males. A follow-up study demonstrated that T- and DHT-implanted males had similar numbers of TH-ir neurons in these three regions compared with intact males and that all three of these groups possessed significantly more TH-ir neurons compared with gonadectomized males. These results suggest that circulating sex steroids have a significant impact on the activity of dopaminergic neurons in male R. pipiens. Although the function of these specific dopaminergic neurons is not yet known, the POA, SCN, and TP/DH are known to be integral brain regions underlying the neural control of reproductive behavior in frogs. These results suggest that dopamine may be important in controlling the behavior or neuroendocrine mechanisms of reproduction in these animals and that dopaminergic activity in these areas is regulated by gonadal steroids.