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Relationship between CSF hypocretin levels and hypocretin neuronal loss.
Gerashchenko D, Murillo-Rodriguez E, Lin L, Xu M, Hallett L, Nishino S, Mignot E, Shiromani PJ (2003) Relationship between CSF hypocretin levels and hypocretin neuronal loss. Exp Neurol 184(2):1010-1016. doi: 10.1016/S0014-4886(03)00388-1
Summary: Narcolepsy has recently been shown to be a neurodegenerative disease. Data from several different sources indicate that narcoleptics have very low levels of hypocretin (HCRT)-containing neurons. The authors sought to verify a direct linkage between HCRT-containing neurons and HCRT levels in the CSF. Rats were lesioned with 45-90 ng of orexin-SAP (Cat. #IT-20) bilaterally into the lateral hypothalamus. Loss of HCRT neurons correlated with decreased levels of HCRT in the CSF.
Related Products: Orexin-B-SAP (Cat. #IT-20)
Relationship between CSF hypocretin levels and hypocretin neuronal loss
Gerashchenko D, Murillo-Rodriguez E, Lin L, Xu M, Hallett L, Nishino S, Mignot E, Shiromani PJ (2003) Relationship between CSF hypocretin levels and hypocretin neuronal loss. Neuroscience 2003 Abstracts 616.2. Society for Neuroscience, New Orleans, LA.
Summary: In the sleep disorder narcolepsy there is a massive reduction in the number of neurons containing the neuropeptide, hypocretin (HCRT). Most narcoleptic patients also have low to negligible levels of HCRT in the cerebrospinal fluid (CSF). However, the relationship between HCRT neurons and HCRT levels is not known, making it difficult for investigators to estimate how many HCRT-containing neurons might be present based on measurements of CSF HCRT levels. A relationship between neuronal loss and CSF levels of the ligand is known in other degenerative diseases, such as Parkinson’s, but not in narcolepsy. To identify this relationship, hypocretin-2-saporin, the neurotoxin that kills hypocretin neurons, or saline were administered to the lateral hypothalamus and CSF was extracted at zeitgeber times (ZT) 0 (time of lights-on) or ZT 8 at various intervals (2, 4, 6, 12, 21, 36, 60 days) after the neurotoxin administration. Compared to saline animals (n=8), rats with an average loss of 73% of HCRT neurons (n=9) had a 50% decline in CSF HCRT levels on day 60. The decline in HCRT levels was evident by day 6 and there was no recovery or further decrease. The decline in HCRT was correlated with increased REM sleep. Rats with an average loss of 14.4% of HCRT neurons (n=4) showed no significant decline in CSF HCRT levels compared to saline rats. In rats with 73% loss of HCRT neurons, the HCRT levels were not substantially increased by 6h prolonged wakefulness indicating that surviving neurons were not able to increase the output of HCRT to compensate for the HCRT neuronal loss. From these data we conclude that since most narcoleptics have more than 80% reduction of CSF HCRT that in these patients most HCRT neurons are lost.
Related Products: Orexin-B-SAP (Cat. #IT-20)
Tuberomammillary nucleus lesion decreases the anticipatory events induced by restricted feeding in rats
Recabarren MP, Valdes JL, Seron-Ferre M, Torrealba F (2003) Tuberomammillary nucleus lesion decreases the anticipatory events induced by restricted feeding in rats. Neuroscience 2003 Abstracts 510.19. Society for Neuroscience, New Orleans, LA.
Summary: Our previous studies indicate that the histamine-containing neurons of the tuberomammillary nucleus (TMN) become active in anticipation to feeding time in rats under a restricted feeding schedule. To assess the role of the TMN in this anticipatory activity in rats, we lesioned the TMN bilaterally with stereotaxic injections of 50ng ORX-SAP (Advanced Targeting System, CA). We analyzed the locomotor activity, core temperature and the feeding frequency exhibited by these animals during a restricted feeding protocol, where food was available between 10:00 h and 12:00 h for at least 2 weeks. Rats were implanted in the abdominal cavity with telemetric sensors (Minimitter, OR) to measure locomotor activity and core temperature. During the whole experiment rats were maintained in individual cages and under controlled photoperiod of 12 hours light and 12 hours dark, light were on at 07:00 h. We analyzed the 3 hours preceding food arrival. We checked the extent of TMN destruction by immunostaining the brain sections with antibody against adenosine diaminase (ADA), which colocalize with histaminergic neurons in the TMN. Control rats were subjected to the same procedures except for the injection of the ORX-SAP toxin. Results: Lesion rats showed a significant decrease in the number of ADA-ir neurons in the TMN, as well as a decreased anticipatory activity under restricted feeding in comparison with control rats. Lesion rats although awake before food arrival, were less eager to feed compared to controls, as assessed by food bin approaches. Control rats were slightly more active than lesion rats during restriction. In conclusion, the functional integrity of the TMN is required for the full expression of the anticipatory events that are stimulated by a restricted feeding schedule.
Related Products: Orexin-B-SAP (Cat. #IT-20)
Targeted toxins in pain.
Wiley RG, Lappi DA (2003) Targeted toxins in pain. Adv Drug Deliv Rev 55(8):1043-1054. doi: 10.1016/s0169-409x(03)00102-9
Summary: The authors discuss the use of ‘molecular neurosurgery’ in the study of nociception. Applications using targeted toxins, which include immunotoxins, protein-toxin conjugates, or peptide-toxin conjugates, are illustrated. The authors describe the use of these molecules as research tools, as well as their potential for therapeutics. A helpful table is included that lists neuronal surface markers and class of cells targeted for each targeted toxin. Reagents discussed: CTB-SAP (Cat. #IT-14), IB4-SAP (Cat. #IT-10), OX7-SAP (Cat. #IT-02), 192-Saporin (Cat. #IT-01), ME20.4-SAP (Cat. #IT-15), Anti-DBH-SAP (Cat. #IT-03), Anti-DAT-SAP (Cat. #IT-25), SP-SAP (Cat. #IT-07), Dermorphin-SAP (Cat. #IT-12), Orexin-SAP (Cat. #IT-20), CRF-SAP (Cat. #IT-13), and acetylated LDL-SAP (Cat. #IT-08).
Related Products: CTB-SAP (Cat. #IT-14), IB4-SAP (Cat. #IT-10), OX7-SAP (Cat. #IT-02), 192-IgG-SAP (Cat. #IT-01), ME20.4-SAP (Cat. #IT-15), Anti-DBH-SAP (Cat. #IT-03), Anti-DAT-SAP (Cat. #IT-25), SP-SAP (Cat. #IT-07), Dermorphin-SAP / MOR-SAP (Cat. #IT-12), Orexin-B-SAP (Cat. #IT-20), CRF-SAP (Cat. #IT-13), Acetylated LDL-SAP (Cat. #IT-08)
Food- and light-entrained circadian rhythms in rats with hypocretin-2-saporin ablations of the lateral hypothalamus.
Mistlberger RE, Antle MC, Kilduff TS, Jones M (2003) Food- and light-entrained circadian rhythms in rats with hypocretin-2-saporin ablations of the lateral hypothalamus. Brain Res 980(2):161-168. doi: 10.1016/s0006-8993(03)02755-0
Summary: Food-anticipatory behaviors in mammals can follow circadian rhythms entrained by daily feeding schedules. Lateral hypothalamic (LH) neurons express hypocretin (also known as orexin) receptors, therefore rats were treated with four 500-ng injections of orexin-SAP (Cat. #IT-20) to eliminate these neurons. Lesioned animals displayed altered dietary behavior, but maintained anticipatory activity before the daily meal.
Related Products: Orexin-B-SAP (Cat. #IT-20)
Effects of lateral hypothalamic lesion with the neurotoxin hypocretin-2-saporin on sleep in Long-Evans rats.
Gerashchenko K, Blanco-Centurion C, Greco MA, Shiromani PJ (2003) Effects of lateral hypothalamic lesion with the neurotoxin hypocretin-2-saporin on sleep in Long-Evans rats. Neuroscience 116:223-235. doi: 10.1016/s0306-4522(02)00575-4
Summary: Recent data has linked narcolepsy to the loss of neurons containing the neuropeptide hypocretin, also known as orexin. The authors wished to investigate whether the variance in severity of narcolepsy could be explained by the extent of loss of these neurons. After injection of 90 or 490 ng of orexin-SAP (Cat. #IT-20) into the lateral hypothalamus, the measurement of several parameters demonstrated the severity of narcolepsy may be linked to the degree of loss of neurons expressing the orexin receptor.
Related Products: Orexin-B-SAP (Cat. #IT-20)
Hypocretin2-saporin (HCRT2-SAP) lesions of the lateral hypothalamus does not affect the entrained or free-running rhythm of core body temperature.
Gerashchenko D, Blanco-Centurion C, Shiromani PJ (2002) Hypocretin2-saporin (HCRT2-SAP) lesions of the lateral hypothalamus does not affect the entrained or free-running rhythm of core body temperature. Neuroscience 2002 Abstracts 776.2. Society for Neuroscience, Orlando, FL.
Summary: Hypocretin (HCRT)neurons are present only in the lateral hypothalamus (LH) from where they project heavily to major arousal centers. HCRT neurons are lost in the sleep disorder narcolepsy, an illness characterized by an increased tendency to fall asleep during the normal active period. As such, it is hypothesized that HCRT neurons are responsible for “waking-up” the brain. To test this hypothesis we monitored the rhythm of core body temperature during entrained & free-run conditions after lesions of the HCRT neurons. 23 male Long-Evans rats implanted with sleep recording electrodes and a temperature transmitter were given one of two concentrations (90 ng/0.5 ìl vs 490 ng/0.5 ìl) of the neurotoxin hypocretin2-saporin (HCRT2-SAP) or unconjugated saporin to the LH. Control rats received saline (n=5). After surgery, sleep and temperature were continuously recorded for 21d in entrained conditions followed by 21d in continuous darkness. Both concentrations of the HCRT2-SAP lesioned HCRT neurons (88% vs 91% HCRT loss). However, HCRT lesions did not disrupt the entrained rhythm of core temperature by either advancing or delaying the phase position of the temperature rhythm. In the saline rats, the free-run period of temperature rhythm (tau) was 24.16 (±0.07) and this was not significantly different in the HCRT2-SAP or SAP rats. These results indicate that in the absence of HCRT, the animal wakes up at the correct time of day but then is not able to stay awake.
Related Products: Orexin-B-SAP (Cat. #IT-20)
Featured Article: HCRT-SAP lesion produces sleepiness while anti-DBH-SAP lesion does not
Blanco-Centurion C (2002) Featured Article: HCRT-SAP lesion produces sleepiness while anti-DBH-SAP lesion does not. Targeting Trends 3(2)
Related Products: Anti-DBH-SAP (Cat. #IT-03), Orexin-B-SAP (Cat. #IT-20)
Read the featured article in Targeting Trends.
See Also:
Loss of histaminergic neurons does not produce hypersomnolence.
Chou TC, Gerashchenko D, Saper CB, Shiromani PJ (2001) Loss of histaminergic neurons does not produce hypersomnolence. Neuroscience 2001 Abstracts 522.21. Society for Neuroscience, San Diego, CA.
Summary: Electrolytic lesions of the posterior hypothalamus (PH) produce long-lasting hypersomnolence (1,2). The PH contains histaminergic neurons in the tuberomammillary nucleus (TMN) that project diffusely throughout the brain. Because histamine promotes wakefulness while antihistamines are sedating, the TMN is thought to be critically involved in maintaining wakefulness. To test this hypothesis, we placed cell-specific lesions in the PH and TMN of rats and measured sleep-wake behavior. Lesions were produced using either the conventional excitotoxin ibotenic acid, or the novel toxin orexin (hypocretin) conjugated to the ribosomal toxin saporin (ORX/HCRT-SAP). Ibotenic acid injections were ineffective at lesioning the TMN; most histaminergic neurons were selectively spared while neurons in surrounding regions such as the mammillary bodies and supramammillary area were completely lesioned. In contrast, ORX/HCRT-SAP injections into the TMN lesioned up to 95% of histaminergic neurons, as determined by adenosine-deaminase immunostaining, with a similar loss of neurons in adjacent areas. Surprisingly, neither group of rats showed changes in NREM or REM sleep time or circadian distribution of sleep relative to saline-injected controls for up to 2 weeks after surgery. Thus, the waking state may not be critically dependent on the PH or TMN in rats. Further research is needed to reconcile the sedating effects of antihistamines with the current findings. 1. Ranson 1939, Archiv Neurol and Psychiatry 41(1):1-23. 2. Swett and Hobson 1968, Arch Ital Biol 106(3):283-293.
Related Products: Orexin-B-SAP (Cat. #IT-20)
Light- and food-entrained circadian rhythms in rats with neurotoxic lesions of hypocretin cells.
Mistlberger RE, Antle MC, Jones M, Kilduff TS (2001) Light- and food-entrained circadian rhythms in rats with neurotoxic lesions of hypocretin cells. Neuroscience 2001 Abstracts 410.8. Society for Neuroscience, San Diego, CA.
Summary: The hypocretins (Hcrt1 & 2) are lateral hypothalamic (LH) neuropeptides implicated in the regulation of feeding and sleep-wake states. Hcrt lesions attenuate the amplitude of sleep-wake circadian rhythms in rats entrained to light-dark (LD; Gerashchenko et al, Soc. Neurosci Abst., 2000). We examined whether Hcrt cells also participate in the expression of circadian rhythms entrained by daily feeding schedules. Rats received LH injections of Hcrt2 conjugated to the ribosome- inactivating protein saporin. Drinking was recorded in LD 12:12 for 1-2 months, in DD for 48 h, and in LD 2:2 for 24 h, to assess photic entrainment and masking. The rats were then restricted to a 3 h daily meal beginning 6 h after lights-on (LD 12:12). After 29 days, the rats were deprived of food for 50 h. Lesions, assessed by immunocytochemistry using preprohypocretin antibody (Chemicon Int., Inc.), ranged from 0-100% complete. Complete lesions were associated with attenuated mean level and amplitude of circadian drinking rhythms in LD 12:12 and DD, but photic masking in LD 2:2 was unaffected. All rats exhibited food-entrained activity that anticipated feeding time by 1-3 h. This was of lower magnitude in the rat with the largest lesion. These results are consistent with a recent report that Hcrt2-saporin lesions attenuate sleep-wake circadian rhythms, but differ from earlier reports that electrolytic lesions of the LH may potentiate the masking effects of light on behavior. The results suggest that Hcrt cells do not play an essential role in the regulation of circadian rhythms by scheduled feeding.
Related Products: Orexin-B-SAP (Cat. #IT-20)