Pushpa S. Kalra
University of Florida
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Featured researches published by Pushpa S. Kalra.
Peptides | 1988
Abhiram Sahu; Pushpa S. Kalra; Satya P. Kalra
We have studied the effects on neuropeptide Y (NPY) concentration in six hypothalamic nuclei, viz. medial preoptic area (MPOA), paraventricular nucleus (PVN), median eminence (ME), arcuate nucleus (ARC), ventromedial nucleus (VMN) and dorsomedial nucleus (DMN) of food deprivation (FD) for 2, 3, or 4 days or FD for 4 days followed by one day ad lib food intake (FI) in male rats. Hypothalamic nuclei were microdissected by the technique of Palkovits and processed for measurement of NPY immunoreactivity by RIA. NPY-like immunoreactivity in the ME, VMN and DMN was unaffected by FD or FI, but the remaining three nuclei--the ARC, MPOA and NPY--displayed a different pattern of changes in NPY levels in response to either FD or FD followed by FI. In the ARC, NPY levels rose significantly at day 3 and 4 after FD and remained elevated even after one day of FI. In the MPOA, while FD for 4 days had no effect, NPY concentration increased significantly in response to FI. In contrast, in the PVN, a site implicated in the control of feeding behavior, the NPY response to FD and FI was markedly different. FD elicited a gradual, time-related increase in NPY levels to reach highest concentration on day 4 and thereafter, following one day of FI, NPY levels fell dramatically to the range found in control satiated rats.(ABSTRACT TRUNCATED AT 250 WORDS)
Brain Research | 1999
Michael G. Dube; Satya P. Kalra; Pushpa S. Kalra
Orexin A and B, a recently identified pair of neuropeptides, are produced in perikarya located in the lateral and perifornical hypothalamus (LH and PFH). Immunoreactive fibers from these neurons innervate several nuclei in the hypothalamus. Orexin A and orexin B stimulate feeding when administered intracerebroventricularly to rats. To identify the specific sites of orexin action, orexin A and B were microinjected into a number of hypothalamic and extrahypothalamic sites in rats. Orexin A was found to enhance food intake when injected into four hypothalamic sites, the paraventricular nucleus (PVN), the dorsomedial nucleus (DMN), LH and the perifornical area, but was ineffective in the arcuate nucleus (ARC), the ventromedial nucleus (VMN), and the preoptic area (POA) as well as the central nucleus of the amygdala (CeA) and nucleus of the tractus solitarius (NTS). Orexin B was not effective at any site tested. These findings demonstrate that orexin A receptive sites for stimulation of food intake exist primarily in a narrow band of neural tissue within the hypothalamus that is known to be involved in control of energy homeostasis.
Frontiers in Neuroendocrinology | 1996
Satya P. Kalra; Pushpa S. Kalra
Neuropeptide Y (NPY) has been implicated in the hypothalamic regulation of reproduction and energy homeostasis. The perikarya located primarily in the arcuate nucleus (ARC) of the hypothalamus constitute a common source of NPY. Projections from these neurons along two distinct pathways, namely, the reproductive axis of the ARC--median eminence--medial preoptic area and the orexigenic axis of the ARC--paraventricular nucleus and neighboring regions, participate in regulation of these two neuroendocrine functions. Additionally, the NPY neuronal system within the basal hypothalamus is morphologically and functionally linked with galanin and the opioid networks which also play roles in the control of reproduction and ingestive behavior. Recent experimental evidence indicates that genetic, hormonal, and environmental factors that cause nutritional imbalance and metabolic disturbances, along with depressed pituitary gonadal function, produce alterations in the synthesis, storage, and release of NPY and in other connected peptidergic systems in the hypothalamus. The current findings summarized in this review support our concept that NPY may-be one of the essential messenger molecules that serve as a communication bridge between the neural processes that regulate reproduction and those that maintain energy homeostasis. Modification in information flow within this peptidergic network due to nutritional imbalance may adversely impact hypothalamo-pituitary-gonadal function.
Brain Research | 1988
Abhiram Sahu; Satya P. Kalra; William R. Crowley; Pushpa S. Kalra
Recent studies show that bilateral neural transections (NT) at the level of dorsal tegmentum in the mesencephalon significantly increase food intake and decrease latency to onset of feeding behavior in response to neuropeptide Y (NPY). The increased responsiveness to NPY may be due to denervation-induced hypersensitivity to NPY in hypothalamic sites that mediate feeding behavior in rats. To test this hypothesis we have studied the effect of NT on NPY concentrations in 7 neural sites of male rats. Two weeks after NT, NPY levels in 3 hypothalamic nuclei--suprachiasmatic nucleus, arcuate nucleus and ventromedial hypothalamus--were not altered by NT thereby suggesting that NPY innervations in these nuclei may be derived mainly from NPY perikarya in the ARC and elsewhere in the diencephalon. On the other hand, NPY concentrations were markedly decreased (50-60%) in the medial preoptic area, paraventricular nucleus, median eminence and dorsomedial nucleus indicating that a substantial number of neurons in the brainstem, which show coexistence of NPY and adrenergic transmitters, project into these 4 diencephalic nuclei. These findings indicate that NPY-containing neurons in the brainstem may project into selected hypothalamic sites and the reduction in the NT rats of NPY levels, especially in the paraventricular nucleus, may be responsible for the reported increase in sensitivity of the NPY-induced feeding response.
Neuropeptides | 2004
Satya P. Kalra; Pushpa S. Kalra
Neuropeptide Y is the most potent physiological appetite transducer known. The NPY network is the conductor of the hypothalamic appetite regulating orchestra in the arcuate nucleus-paraventricular nucleus (ARC-PVN) of the hypothalamus. NPY and cohorts, AgrP, GABA and adrenergic transmitters, initiate appetitive drive directly through Y1, Y5, GABAA and alpha1 receptors, co-expressed in the magnocellular PVN (mPVN) and ARC neurons and by simultaneously repressing anorexigenic melanocortin signaling in the ARC-PVN axis. The circadian and ultradian rhythmicities in NPY secretion imprint the daily circadian and episodic feeding patterns. Although a number of afferent hormonal signals from the periphery can directly modulate NPYergic signaling, the reciprocal circadian and ultradian rhythmicities of anorexigenic leptin from adipocytes and orexigenic ghrelin from stomach, encode a corresponding pattern of NPY discharge for daily meal patterning. Subtle and progressive derangements produced by environmental and genetic factors in this exquisitely intricate temporal relationship between the two opposing humoral signals and the NPY network promote hyperphagia and abnormal rate of weight gain culminating in obesity and attendant metabolic disorders. Newer insights at cellular and molecular levels demonstrate that a breakdown of the integrated circuit due both to high and low abundance of NPY at target sites, underlies hyperphagia and increased adiposity. Consequently, interruption of NPYergic signaling at a single locus with NPY receptor antagonists may not be the most efficacious therapy to suppress hyperphagia and obesity. Central leptin gene therapy in rodents has been shown to subjugate, i.e. bring under homeostatic control, NPYergic signaling and suppress the age-related and dietary obesity for extended periods and thus shows promise as a newer treatment modality to curb the pandemic of obesity and metabolic syndrome.
Regulatory Peptides | 2003
Satya P. Kalra; Michela Bagnasco; Effiong E Otukonyong; Michael G. Dube; Pushpa S. Kalra
The hypothalamus integrates metabolic, neural and hormonal signals to evoke an intermittent appetitive drive in the daily management of energy homeostasis. Three major players identified recently in the feedback communication between the periphery and hypothalamus are leptin, ghrelin and neuropeptide Y (NPY). We propose that reciprocal circadian and ultradian rhythmicities in the afferent humoral signals, anorexigenic leptin from adipocytes and orexigenic ghrelin from stomach, encode a corresponding discharge pattern in the appetite-stimulating neuropeptide Y network in the hypothalamus. An exquisitely intricate temporal relationship among these signaling modalities with varied sites of origin is paramount in sustenance of weight control on a daily basis. Our model envisages that subtle and progressive derangements in temporal communication, imposed by environmental shifts in energy intake, impel a positive energy balance culminating in excessive weight gain and obesity. This conceptual advance provides a new target for designing pharmacologic or gene transfer therapies that would normalize the rhythmic patterns of afferent hormonal and efferent neurochemical messages.
Neuroendocrinology | 1984
Satya P. Kalra; Pushpa S. Kalra
In this article we have attempted first to summarize the current information on the effects of each of the three neuronal systems - gonadal steroid concentrating neurons, catecholamine and opioid producing neurons - on various aspects of luteinizing hormone releasing hormone (LHRH) secretion. The salient features of the new information are: (1) gonadal steroids are capable of raising LHRH levels in the median eminence nerve terminals without changing LH (LHRH) secretion; (2) a chain of temporally related neural events in the preoptic-tuberal pathway precede the preovulatory LH release; (3) catecholamines may provide a permissive environment for appropriate function of LHRH neurons, and (4) the inhibitory influence of endogenous opioid peptides on LH release may be mediated by adrenergic neurons in the preoptic-tuberal pathway. Based on this information we have constructed a conceptual model which attempts to integrate the inputs of these three systems during the episodic basal and cyclic release of LH in the rat.
Physiology & Behavior | 1991
Satya P. Kalra; Michael G. Dube; Alain Fournier; Pushpa S. Kalra
Neuropeptide Y (NPY) is a potent natural orexigenic signal in the rat. In this study, we have compared the effects of several COOH-terminal fragments of NPY and NPY receptor agonists on cumulative food intake in male rats. Rats were implanted with permanent cannulae either into the third cerebroventricle or paraventricular nucleus (PVN). NPY1-36 and various COOH-terminal fragments of NPY, two agonist analogues [Leu31, Pro34]NPY and NPY 1-4-Aca (epsilon-amino-caproic acid)-25-36, were administered intracerebroventricularly (ICV) or directly into the PVN, and the cumulative 2-h food intake response was compared. We observed that peptides that were effective by ICV were also effective when administered into the PVN, but smaller amounts of the peptides were required after PVN injection to evoke an equivalent food intake response. Injection of NPY1-36 induced a dose-dependent increment in food intake. Surprisingly, deletion of NH2-terminal tyrosine residue did not adversely affect feeding behavior. In fact, NPY2-36 was consistently more effective than NPY1-36; the enhancement in feeding by NPY2-36 was dose-related and was higher than evoked by NPY1-36 at each dose tested. Further serial deletion of aminoacids at NH2-terminal resulted in complete loss of activity. In addition, NPY agonist analogue, NPY 1-4-Aca-25-36, failed to stimulate feeding. However, NPY Y1 receptor agonist, [Leu31, Pro34]NPY, but not Y2 receptor agonist, NPY13-36, stimulated feeding.(ABSTRACT TRUNCATED AT 250 WORDS)
Regulatory Peptides | 2000
Mukul R Jain; Tamas L. Horvath; Pushpa S. Kalra; Satya P. Kalra
Neuropeptide Y (NPY) produced in the arcuate nucleus (ARC) of the hypothalamus stimulates feeding both directly by activating NPY receptors and indirectly through release of the orexigenic peptides, galanin and beta-endorphin (beta-END), in the paraventricular nucleus (PVN) and surrounding neural sites. Orexin A and orexin B, produced outside the ARC in the lateral hypothalamic area (LH), have recently been shown to stimulate feeding. In the present studies we tested the hypothesis that NPYergic signaling may mediate feeding stimulated by orexins. In adult male rats injected intracerebroventricularly (i.c.v.) with orexin A (3, 10, 15 nmol) or orexin B (3, 10, 30 nmol) feeding was stimulated in a dose-dependent manner; maximal feeding was seen after 15 nmol orexin A and 30 nmol orexin B. To determine whether NPY may mediate this orexin stimulated feeding, we used 1229U91, a selective NPY Y1 receptor antagonist (NPY-A). Whereas NPY-A on its own was ineffective, it suppressed NPY-induced feeding. Furthermore, NPY-A completely blocked the feeding evoked by either orexin A (15 nmol) or orexin B (30 nmol). These results show that orexin A and B stimulate feeding and further suggest that these excitatory effects may be mediated by NPYergic signaling through Y1 receptors. These findings are in accord with the view that the orexin-NPY pathway may comprise a functional link upstream from NPY within the hypothalamic appetite regulating network.
Endocrinology | 1999
Shuye Pu; Mukul R Jain; Tamas L. Horvath; Sabrina Diano; Pushpa S. Kalra; Satya P. Kalra
Neuropeptide Y (NPY) produced in neurons in the arcuate nucleus and brain stem and released in the paraventricular nucleus (PVN) and surrounding areas is involved in stimulation of feeding in rats. We recently reported that γ-aminobutyric acid (GABA) is coexpressed in a subpopulation of NPY neurons in the arcuate nucleus. To determine whether GABA is colocalized in NPY terminals in the PVN, the site of NPY action, light and electron microscopic double staining for NPY and GABA using pre- and postembedding immunolabeling was performed on rat brain sections. GABA was detected in NPY-immunopositive axons and axon terminals within both the parvocellular and magnocellular divisions of the PVN. These morphological findings suggested a NPY-GABA interaction in the hypothalamic control of feeding. Therefore, the effects of muscimol (MUS), a GABAA receptor agonist, on NPY-induced food intake were examined in sated rats. When injected intracerebroventricularly, both NPY and MUS elicited dose-dependent feeding respon...