Morphology, biology, and distribution of Ichthyophis kodaguensis (Amphibia:Gymnophiona), a rare caecilian from the Western Ghats, India

Of the amphibian orders, the Gymnophiona (caecilians) have the lowest number of species and are the least known. We report new information on the morphology, biology, range, and distribution of Ichthyophis kodaguensis, a striped ichthyophiid caecilian from the Western Ghats, India that shows the first evidence of possible sexual-dimorphism in this species. Based on the clutch size, limited range, relatively low fecundity, and agricultural practices in their habitats, we consider that I. kodaguensis is highly threatened when compared to other striped ichthyophiids from the Western Ghats, a biodiversity hotspot.

A comparison of morphometric traits of sheep breeds of Karnataka in the farmers' flocks

The study revealed that the 4 sheep breeds of Karnataka differed significantly with respect to body weight and other physical traits. Kenguri and Bellary breeds of sheep were larger and heavier than Hassan and Mandya sheep breeds. Amongst them Kenguri rams were heaviest followed by Bellary, Mandya and Hassan but in ewes the above order was reversed in breeds of southern Karnataka. The overall difference in body weights of Kenguri and Bellary rams was 9.66 kg whereas in Hassan and Mandya rams it was 4.37 kg. The corresponding values in ewes were 4.06 kg and 1.5 kg. In ewes, the increase in magnitude of a morphometric trait from a lower age group to next higher age group was marginal. All the sheep breeds of Karnataka attained maximum weight at 8-tooth age

Striatal neuropeptides enhance selection and rejection of sequential actions

The striatum is the primary input nucleus for the basal ganglia, and receives glutamatergic afferents from the cortex. Under the hypothesis that basal ganglia perform action selection, these cortical afferents encode potential “action requests.” Previous studies have suggested the striatum may utilize a mutually inhibitory network of medium spiny neurons (MSNs) to filter these requests so that only those of high salience are selected. However, the mechanisms enabling the striatum to perform clean, rapid switching between distinct actions that form part of a learned action sequence are still poorly understood. Substance P (SP) and enkephalin are neuropeptides co-released with GABA in MSNs preferentially expressing D1 or D2 dopamine receptors respectively. SP has a facilitatory effect on subsequent glutamatergic inputs to target MSNs, while enkephalin has an inhibitory effect. Blocking the action of SP in the striatum is also known to affect behavioral transitions. We constructed phenomenological models of the effects of SP and enkephalin, and integrated these into a hybrid model of basal ganglia comprising a spiking striatal microcircuit and rate–coded populations representing other major structures. We demonstrated that diffuse neuropeptide connectivity enhanced the selection of unordered action requests, and that for true action sequences, where action semantics define a fixed structure, a patterning of the SP connectivity reflecting this ordering enhanced selection of actions presented in the correct sequential order and suppressed incorrect ordering. We also showed that selective pruning of SP connections allowed context–sensitive inhibition of specific undesirable requests that otherwise interfered with selection of an action group. Our model suggests that the interaction of SP and enkephalin enhances the contrast between selection and rejection of action requests, and that patterned SP connectivity in the striatum allows the “chunking” of actions and improves selection of sequences. Efficient execution of action sequences may therefore result from a combination of ordered cortical inputs and patterned neuropeptide connectivity within striatum

Phospholipase C-β4 Is Essential for the Progression of the Normal Sleep Sequence and Ultradian Body Temperature Rhythms in Mice

BACKGROUND: THE SLEEP SEQUENCE: i) non-REM sleep, ii) REM sleep, and iii) wakefulness, is stable and widely preserved in mammals, but the underlying mechanisms are unknown. It has been shown that this sequence is disrupted by sudden REM sleep onset during active wakefulness (i.e., narcolepsy) in orexin-deficient mutant animals. Phospholipase C (PLC) mediates the signaling of numerous metabotropic receptors, including orexin receptors. Among the several PLC subtypes, the beta4 subtype is uniquely localized in the geniculate nucleus of thalamus which is hypothesized to have a critical role in the transition and maintenance of sleep stages. In fact, we have reported irregular theta wave frequency during REM sleep in PLC-beta4-deficient mutant (PLC-beta4-/-) mice. Daily behavioral phenotypes and metabotropic receptors involved have not been analyzed in detail in PLC-beta4-/- mice, however. METHODOLOGY/PRINCIPAL FINDINGS: Therefore, we analyzed 24-h sleep electroencephalogram in PLC-beta4-/- mice. PLC-beta4-/- mice exhibited normal non-REM sleep both during the day and nighttime. PLC-beta4-/- mice, however, exhibited increased REM sleep during the night, their active period. Also, their sleep was fragmented with unusual wake-to-REM sleep transitions, both during the day and nighttime. In addition, PLC-beta4-/- mice reduced ultradian body temperature rhythms and elevated body temperatures during the daytime, but had normal homeothermal response to acute shifts in ambient temperatures (22 degrees C-4 degrees C). Within the most likely brain areas to produce these behavioral phenotypes, we found that, not orexin, but group-1 metabotropic glutamate receptor (mGluR)-mediated Ca(2+) mobilization was significantly reduced in the dorsal lateral geniculate nucleus (LGNd) of PLC-beta4-/- mice. Voltage clamp recordings revealed that group-1 mGluR-mediated currents in LGNd relay neurons (inward in wild-type mice) were outward in PLC-beta4-/- mice. CONCLUSIONS/SIGNIFICANCE: These lines of evidence indicate that impaired LGNd relay, possibly mediated via group-1 mGluR, may underlie irregular sleep sequences and ultradian body temperature rhythms in PLC-beta4-/- mice

IMPACT OF CERTAIN PLANT EXTRACTS AGAINST MULBERRY LEAF ROLLER DIAPHANIA PULVERULENTALIS

[Text Box:] The present investigation is intended to explore the possibility of using the medicinal plants such as Lantana camara Linn. (lantana), Allium sativum Linn. (garlic), Zingiber officinale Rose. (ginger), Azadirachta indica Juss.(neem) and Vitex negundo Linn. (vitex) having insecticidal properties against the mulberry leaf roller Diaphania pulverulentalis. The outcome of the findings indicated that the mortality of the second instar larvae of leaf roller recorded at each and every concentrations of the plant extracts found to be significant compared to untreated check at 24, 48, 72, 96, 120 and 144 h intervals in both methanol and aqueous extracts. Similarly, the per cent mortality of pupae and moths with deformation recorded maximum at lower concentrations of methanol and aqueous extract of plants compared at higher concentrations. While in case of third instar, the mortality was less compared to second instar. Higher mortality of the larvae was noticed with increase in concentration. After 144 h, the mortality range recorded by the methanol extract of the plants was maximum (85.00 to 95.00%) compared to aqueous extracts (58.00 to 76.00%). Based on the screening, one concentration from each plant extract which was more effective and statistically significant was selected and used to study its residual toxicity on silkworm Bombyx mori L

Distinct Roles of Metabotropic Glutamate Receptor Activation on Inhibitory Signaling in the Ventral Lateral Geniculate Nucleus

The ventral lateral geniculate nucleus (vLGN) has been implicated in numerous functions including circadian rhythms, brightness discrimination, pupillary light reflex, and other visuomotor functions. The contribution of inhibitory mechanisms in the regulation of vLGN neuron excitability remains unexplored. We examined the actions of metabotropic glutamate receptor (mGluR) activation on the intrinsic excitability and inhibitory synaptic transmission in different lamina of vLGN. Activation of mGluRs exerts distinct pre- and postsynaptic actions in vLGN neurons. In the lateral magnocellular subdivision of vLGN (vLGNl), the general mGluR agonist (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid (ACPD) enhanced the frequency of GABAA receptor-mediated spontaneous inhibitory postsynaptic currents (sIPSC) that persisted in the presence of sodium channel blocker tetrodotoxin (TTX) in a subpopulation of neurons (TTX insensitive). This increase is attributed to the increased output of dendritic GABA release from vLGN interneurons. In contrast, in the medial subdivision of vLGN (vLGNm), the mGluR agonist-mediated increase in sIPSC frequency was completely blocked by TTX. The selective Group I mGluR agonist (RS)-3,5-dihydroxyphenylglycine (DHPG) increased sIPSC frequency, whereas the selective Group II mGluR agonist (2R, 4R)-4-aminopyrrolidine-2,4-dicarboxylate (APDC) significantly decreased sIPSC frequency in vLGNl neurons. Optic tract stimulation also produced an mGluR-dependent increase in sIPSC frequency in vLGNl neurons. In contrast, we were unable to synaptically evoke alterations in sIPSC activity in vLGNm neurons. In addition to these presynaptic actions, DHPG depolarized both vLGNl and vLGNm neurons. In vLGN interneurons, mGluR activation produced opposing actions: APDC hyperpolarized the membrane potential, whereas DHPG produced a membrane depolarization. The present findings demonstrate diverse actions of mGluRs on vLGN neurons localized within different vLGN lamina. Considering these different lamina are coupled with distinct functional roles, thus these diverse actions may be involved in distinctive forms of visual and visuomotor information processing

Selective Excitatory Actions of DNQX and CNQX in Rat Thalamic Neurons

The thalamic reticular nucleus (TRN) consists of GABA-containing neurons that form reciprocal synaptic connections with thalamic relay nuclei. Excitatory synaptic innervation of TRN neurons arises from glutamatergic afferents from thalamocortical relay neurons and deep layer corticothalamic neurons, and they produce excitation via both N-methyl-d-aspartate (NMDA) and non-NMDA receptors. Quinoxaline derivatives [e.g., 6,7-dinitroquinoxaline-2,3-dione (DNQX), 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX)] have routinely been used as non-NMDA receptor antagonists over the last two decades. In this study, we examined whether quinoxaline derivatives alter the intrinsic properties of thalamic neurons in light of recent findings indicating that these compounds can alter neuronal excitability in hippocampal and cerebellar neurons via transmembrane AMPA receptor (AMPAR) regulatory proteins (TARPs). Whole cell recordings were obtained from TRN and ventrobasal (VB) thalamic relay neurons in vitro. DNQX and CNQX produced a consistent depolarization in all TRN neurons tested. The depolarization persisted in tetrodotoxin and low Ca2+/high Mg2+ conditions, suggesting a postsynaptic site of action. In contrast, DNQX and CNQX produced little or no change in VB thalamocortical relay neurons. The nonspecific ionotropic glutamate receptor antagonist, kynurenic acid, and the selective AMPAR antagonist, 4-(8-methyl-9H-1,3-dioxolo[4,5-h][2,3]benzodiazepin-5-y l)-benzenamine hydrochloride, blocked the DNQX-mediated depolarizations. Our results indicate that the DNQX- and CNQX-mediated depolarizations are mediated by AMPAR but not kainate receptors in TRN neurons. The AMPAR-positive allosteric modulator, trichloromethiazide, potentiated the DNQX-mediated depolarization in TRN neurons but did not unmask any excitatory actions of DNQX/CNQX in relay neurons. This selective action may not only reveal a differential TARP distribution among thalamic neurons but also may provide insight into distinct characteristics of AMPA receptors of thalamic neurons that could be exploited by future pharmacological development. Furthermore, these data suggest that quinoxaline derivatives could modulate synaptic transmission and alter neuronal excitability