Comparative therapeutic efficacy and safety of type-II collagen (UC-II), glucosamine and chondroitin in arthritic dogs: pain evaluation by ground force plate.

The investigation was conducted on client-owned moderately arthritic dogs with two objectives: (i) to evaluate therapeutic efficacy of type-II collagen (UC-II) alone or in combination with glucosamine hydrochloride (GLU) and chondroitin sulphate (CHO), and (ii) to determine their tolerability and safety. Dogs in four groups (n = 7-10), were treated daily for a period of 150 days with placebo (Group-I), 10 mg active UC-II (Group-II), 2000 mg GLU + 1600 mg CHO (Group-III), and UC-II + GLU + CHO (Group-IV). On a monthly basis, dogs were evaluated for observational pain (overall pain, pain upon limb manipulation, and pain after physical exertion) using different numeric scales. Pain level was also measured objectively using piezoelectric sensor-based GFP for peak vertical force and impulse area. Dogs were also examined every month for physical, hepatic (ALP, ALT and bilirubin) and renal (BUN and creatinine) functions. Based on observations, significant (p < 0.05) reduction in pain was noted in Group-II, III, and IV dogs. Using GFP, significant increases in peak vertical force (N/kg body wt) and impulse area (N s/kg body wt), indicative of a decrease in arthritis associated pain, were observed in Group-II dogs only. None of the dogs in any group showed changes in physical, hepatic or renal functions. In conclusion, based on GFP data, moderately arthritic dogs treated with UC-II (10 mg) showed a marked reduction in arthritic pain with maximum improvement by day 150. UC-II, GLU and CHO operate through different mechanisms of action, and were well tolerated over a period of 150 days.

Molecular neuro-biological and systemic health benefits of achieving dopamine homeostasis in the face of a catastrophic pandemic (COVID- 19): A mechanistic exploration.

In the face of the global pandemic of COVID 19, approaching 1.75 Million infected worldwide (4/12/2020) and associated mortality (over 108, 000 as of 4/12/2020) as well-as other catastrophic events including the opioid crisis, a focus on brain health seems prudent [1] (https://www.coronavirus.gov). This manuscript reports on the systemic benefits of restoring and achieving dopamine homeostasis to reverse and normalize thoughts and behaviors of Reward Deficiency Syndrome (RDS) dysfunctional conditions and their effects on behavioral physiology; function of reward genes; and focuses on digestive, immune, eye health, and the constellation of symptomatic behaviors. The role of nutrigenomic interventions on restoring normal brain functions and its benefits on these systems will be discussed. We demonstrate that modulation of dopamine homeostasis using nutrigenomic dopamine agonists, instead of pharmaceutical interventions, is achievable. The allied interlinking with diverse chronic diseases and disorders, roles of free radicals and incidence of anaerobic events have been extensively highlighted. In conjunction, the role of dopamine in aspects of sleep, rapid eye movement and waking are extensively discussed. The integral aspects of food indulgence, the influence of taste sensations, and gut-brain signaling are also discussed along with a special emphasis on ocular health. The detailed mechanistic insight of dopamine, immune competence and the allied aspects of autoimmune disorders are also highlighted. Finally, the integration of dopamine homeostasis utilizing a patented gene test and a research-validated nutrigenomic intervention are presented. Overall, a cutting-edge nutrigenomic intervention could prove to be a technological paradigm shift in our understanding of the extent to which achieving dopamine homeostasis will benefit overall health.

Therapeutic efficacy of undenatured type-II collagen (UC-II) in comparison to glucosamine and chondroitin in arthritic horses.

The present investigation evaluated arthritic pain in horses receiving daily placebo, undenatured type II collagen (UC-II) at 320, 480, or 640 mg (providing 80, 120, and 160 mg active UC-II, respectively), and glucosamine and chondroitin (5.4 and 1.8 g, respectively, bid for the first month, and thereafter once daily) for 150 days. Horses were evaluated for overall pain, pain upon limb manipulation, physical examination, and liver and kidney functions. Evaluation of overall pain was based upon a consistent observation of all subjects during a walk and a trot in the same pattern on the same surface. Pain upon limb manipulation was conducted after the walk and trot. It consisted of placing the affected joint in severe flexion for a period of 60 sec. The limb was then placed to the ground and the animal trotted off. The response to the flexion test was then noted with the first couple of strides the animal took. Flexion test was consistent with determining clinically the degree of osteoarthritis in a joint. Horses receiving placebo showed no change in arthritic condition, while those receiving 320 or 480 or 640 mg UC-II exhibited significant reduction in arthritic pain (P < 0.05). UC-II at 480 or 640 mg dose provided equal effects, and therefore, 480 mg dose was considered optimal. With this dose, reduction in overall pain was from 5.7 +/- 0.42 (100%) to 0.7 +/- 0.42 (12%); and in pain upon limb manipulation from 2.35 +/- 0.37 (100%) to 0.52 +/- 0.18 (22%). Although glucosamine and chondroitin treated group showed significant (P < 0.05) reduction in pain compared with pretreated values, the efficacy was less compared with that observed with UC-II. In fact, UC-II at 480 or 640 mg dose was found to be more effective than glucosamine and chondroitin in arthritic horses. Clinical condition (body weight, body temperature, respiration rate, and pulse rate), and liver (bilirubin, GGT, and ALP) and kidney (BUN and creatinine) functions remained unchanged, suggesting that these supplements were well tolerated.

BASP1 in the lens.

BASP1 was detected in the embryonic and adult chicken lens, using immunological methods and by peptide sequence analysis. The protein was predominantly expressed in fiber cells and only faintly detected in annular pad cells. Localization of the protein was along the plasma membrane of fiber cells often in discrete areas. The role of BASP1 in the lens requires further study.

Safety of a Novel Calcium/Potassium Salt of Hydroxycitric Acid (HCA-SX): I. Two-Generation Reproduction Toxicity Study.

ABSTRACT (-)-Hydroxycitric acid (HCA), a natural plant extract from the dried fruit rind of Garcinia cambogia, has been reported to inhibit fat synthesis and reduce food intake. The objective of this study was to evaluate the effects of a novel calcium/potassium salt of (-)-hydroxycitric acid (HCA-SX) on the reproductive systems of male and female rats, the postnatal maturation and reproductive capacity of their offspring, and possible cumulative effects through multiple generations. Sprague-Dawley rats (30/sex/group) were maintained on feed containing HCA-SX at dose levels of 0, 1000, 3000, or 10,000 ppm for 10 weeks prior to mating, during mating, and, for females, through gestation and lactation, across two generations. During the period of study, animals were examined daily for signs of clinical toxicity and their body weight and feed consumption were recorded twice a week. For the parents (F(0) and F(1)) and the offspring (F(1) and F(2a)), reproductive parameters such as fertility and mating, gestation, parturition, litters, lactation, sexual maturity, and development of offspring were assessed. At termination, necropsy and histopathological examinations were performed on all animals. Dietary exposure of HCA-SX to parental male and female rats of both (F(0) and F(1)) the generations during the premating and mating periods, for both sexes, and during gestation and lactation in case of female rats, did not reveal any remarkable incidence of mortality or abnormal clinical signs. Compared to respective controls, HCA-SX exposure did not affect feed consumption or body weight at any of the exposure levels. HCA-SX exposure did not affect reproductive performance as evaluated by sexual maturity, fertility and mating, gestation, parturition, litter properties, lactation, and development of the offspring. Based on the results of this study, the parental as well as the offspring no-observed-adverse-effect level for HCA-SX was determined to be greater than 10,000 ppm in diet or equivalent to 1018 and 1524 mg/kg body weight/day in male and female rats, respectively.

Safety of a Novel Calcium/Potassium Saltof (-)-Hydroxycitric Acid (HCA-SX): II.Developmental Toxicity Study in Rats.

ABSTRACT (-)-Hydroxycitric acid (HCA), active constituent (10%-30%) of the dried fruit rind of Garcinia cambogia, is commonly used as a dietary supplement for weight management. The objective of the present study was to evaluate the teratogenic potential of a novel calcium/potassium salt of HCA (HCA-SX) in Sprague-Dawley rats. Due to its potential to affect fat synthesis and reduce food intake, processes that are often crucial in normal fetal development, this teratology study was undertaken as part of a multigeneration reproductive investigation. The animals in this study were selected randomly after weaning from each F(2b) litter of the F(1) generation from the two-generation reproductive toxicity study. To start the teratology study, Sprague-Dawley rat pups ( approximately 30/sex/group) from the F(2b) generation were allowed to grow up to 10 to 12 weeks of age before mating. The rats in the treatment group were exposed directly to HCA-SX through feed, while prior to their weaning, they had indirect exposure to the test material during lactation. The dietary exposure levels were the same as those employed for the two-generation reproductive toxicity study, viz. 1000, 3000, or 10,000 ppm. Following mating at maturity, the pregnant rats were observed daily for clinical signs of adverse effects, and body weight and feed consumption were recorded. On day 20 of gestation, animals were subjected to a necropsy and cesarean section to examine the uterus, ovaries, and fetuses for assessment of different parameters of pregnancy and embryo-fetal defects. Despite a slight (13%) lowering of maternal body weight gain during gestation period in the group receiving 10,000 ppm HCA-SX, no evidence of maternal toxicity, adverse effects on the parameters evaluated for the gravid uteri, external abnormalities in the fetuses, soft tissue abnormalities in the fetuses, or skeletal abnormalities in the fetuses were noted. Based on the results of this developmental toxicity study, conducted in continuation of a two-generation reproductive toxicity study, HCA-SX was not found to be teratogenic in the Sprague-Dawley rat at the dietary exposure levels of 1000, 3000, and 10,000 ppm, equivalent to the dose levels of 103, 352, or 1240 mg/kg/day, respectively.

E1A-mediated repression of progesterone receptor-dependent transactivation involves inhibition of the assembly of a multisubunit coactivation complex.

The steroid hormone progesterone acts via high-affinity nuclear receptors that interact with specific DNA sequences located near the promoter of the hormone-responsive gene. Recent studies suggested that the hormone-occupied progesterone receptor (PR) mediates gene activation by recruiting a cellular coregulatory factor, termed coactivator, to the target promoter. The identity and mechanism of action of the coactivator(s) that regulates transcriptional activity of PR are currently under investigation. Here we provide evidence that the hormone-occupied PR forms a multisubunit receptor-coactivator complex containing two previously described coactivators, CREB-binding protein (CBP) and steroid receptor coactivator 1 (SRC-1, a member of the p160 family of coactivators), in nuclear extracts of human breast tumor T47D cells. The association of CBP and SRC-1/p160 with the receptor complex is entirely hormone dependent. Both CBP and SRC-1/p160 possess intrinsic histone acetyltransferase (HAT) activity, and it has been recently proposed that these coactivators function by modulating chromatin structure at the promoter of the target gene. Interestingly, addition of purified CBP to the nuclear extracts of T47D cells markedly stimulated progesterone- and PR-dependent transcription from a nucleosome-free, progesterone response element (PRE)-linked reporter DNA template. Furthermore, depletion of SRC-1/p160 by immunoprecipitation from these transcriptional extracts also significantly impaired PR-mediated RNA synthesis from a naked PRE-linked DNA template. These results strongly implied that CBP and SRC-1/p160 facilitate receptor-mediated transcription in these cell extracts through mechanisms other than chromatin remodeling. We also observed that the adenoviral oncoprotein E1A, which interacts directly with CBP, repressed PR-mediated transactivation when added to the nuclear extracts of T47D cells. Supplementation with purified CBP overcame this inhibition, indicating that the inhibitory effect of E1A is indeed due to a blockade of CBP function. Most importantly, we noted that binding of E1A to CBP prevented the assembly of a coactivation complex containing PR, CBP, and SRC-1/p160, presumably by disrupting the interaction between CBP and SRC-1/p160. These results strongly suggested that E1A repressed receptor-mediated transcription by blocking the formation or recruitment of coactivation complexes. Collectively, our results support the hypothesis that the assembly of a multisubunit coactivation complex containing PR, CBP, and SRC-1/p160 is a critical regulatory step during hormone-dependent gene activation by PR and that the fully assembled complex has the ability to control transcription through mechanisms that are independent of the histone-modifying activities of its component coactivators.

Transcriptional silencing by unliganded thyroid hormone receptor beta requires a soluble corepressor that interacts with the ligand-binding domain of the receptor.

Unliganded thyroid hormone receptor (TR) functions as a transcriptional repressor of genes bearing thyroid hormone response elements in their promoters. Binding of hormonal ligand to the receptor releases the transcriptional silencing and leads to gene activation. Previous studies showed that the silencing activity of TR is located within the C-terminal ligand-binding domain (LBD) of the receptor. To dissect the role of the LBD in receptor-mediated silencing, we used a cell-free transcription system containing HeLa nuclear extracts in which exogenously added unliganded TRbeta repressed the basal level of RNA polymerase II-driven transcription from a thyroid hormone response element-linked template. We designed competition experiments with a peptide fragment containing the entire LBD (positions 145 to 456) of TRbeta. This peptide, which lacks the DNA-binding domain, did not affect basal RNA synthesis from the thyroid hormone response element-linked promoter when added to a cell-free transcription reaction mixture. However, the addition of the LBD peptide to a reaction mixture containing TRbeta led to a complete reversal of receptor-mediated transcriptional silencing in the absence of thyroid hormone. An LBD peptide harboring point mutations, which severely impair receptor dimerization, also inhibited efficiently the silencing activity of TR, indicating that the relief of repression by the LBD was not due to the sequestration of TR or its heterodimeric partner retinoid X receptor into inactive homo- or heterodimers. We postulate that the LBD peptide competed with TR for a regulatory molecule, termed a corepressor, that exists in the HeLa nuclear extracts and is essential for efficient receptor-mediated gene repression. We have identified the region from positions 145 to 260 (the D domain) of the LBD as a potential binding site of the putative corepressor. We observed further that a peptide containing the LBD of retinoic acid receptor (RAR) competed for TR-mediated silencing, suggesting that the RAR LBD may bind to the same corepressor activity as the TR LBD. Interestingly, the RAR LBD complexed with its cognate ligand, all-trans retinoic acid, failed to compete for transcriptional silencing by TRbeta, indicating that the association of the LBD with the corepressor is ligand dependent. Finally, we provide strong biochemical evidence supporting the existence of the corepressor activity in the HeLa nuclear extracts. Our studies demonstrated that the silencing activity of TR was greatly reduced in the nuclear extracts preincubated with immobilized, hormone-free glutathione S-transferase-LBD fusion proteins, indicating that the corepressor activity was depleted from these extracts through protein-protein interactions with the LBD. Similar treatment with immobilized, hormone-bound glutathione S-transferase-LBD, on the other hand, failed to deplete the corepressor activity from the nuclear extracts, indicating that ligand binding to the LBD disrupts its interaction with the corepressor. From these results, we propose that a corepressor binds to the LBD of unliganded TR and critically influences the interaction of the receptor with the basal transcription machinery to promote silencing. Ligand binding to TR results in the release of the corepressor from the LBD and triggers the reversal of silencing by allowing the events leading to gene activation to proceed.

Progesterone enhances target gene transcription by receptor free of heat shock proteins hsp90, hsp56, and hsp70.

Steroid receptors regulate transcription of target genes in vivo and in vitro in a steroid hormone-dependent manner. Unoccupied progesterone receptor exists in the low-salt homogenates of target cells as a functionally inactive 8 to 10S complex with several nonreceptor components such as two molecules of 90-kDa heat shock protein (hsp90), a 70-kDa heat shock protein (hsp70), and a 56-kDa heat shock protein (hsp56). Ligand-induced dissociation of receptor-associated proteins such as hsp90 has been proposed as the mechanism of receptor activation. Nevertheless, it has not been established whether, beyond release of heat shock proteins, the steroidal ligand plays a role in modulating receptor activity. To examine whether the release of these nonreceptor proteins from receptor complex results in a constitutively active receptor, we isolated an unliganded receptor form essentially free of hsp90, hsp70, and hsp56. Using a recently developed steroid hormone-responsive cell-free transcription system, we demonstrate for the first time that the dissociation of heat shock proteins is not sufficient to generate a functionally active receptor. This purified receptor still requires hormone for high-affinity binding to a progesterone response element and for efficient transcriptional activation of a target gene. When an antiprogestin, Ru486, is bound to the receptor, it fails to promote efficient transcription. We propose that in the cell, in addition to the release of receptor-associated inhibitory proteins, a distinct hormone-mediated activation event must precede efficient gene activation.

Purification and characterization of chicken ovalbumin gene upstream promoter transcription factor from homologous oviduct cells.

Previous studies established that the chicken ovalbumin gene upstream promoter (COUP) sequence, which lies between -70 and -90 base pairs upstream from the cap site, is essential for the efficient transcription of the ovalbumin gene. A transcription factor which binds to this sequence has been purified from the homologous chicken oviduct cells. The purification scheme starting from oviduct nuclear extract involved a combination of conventional column and sequence-specific DNA affinity chromatography steps. Using gel retardation and DNase I footprinting techniques to assay COUP-binding activity, we achieved extensive purification of this factor. Binding competition studies with the purified factor indicated that it bound specifically to the COUP sequence and that the binding could be competed for only by the promoter DNA fragments or synthetic oligonucleotides containing the COUP sequence. The purified protein preparation showed multiple polypeptide bands on polyacrylamide gel electrophoresis. Renaturation of separated polypeptides after extraction from the gel matrix was carried out. The majority of renatured polypeptides exhibited specific binding to the COUP sequence.

Therapeutic Efficacy and Safety of Undenatured Type II Collagen Singly or in Combination with Glucosamine and Chondroitin in Arthritic Dogs.

ABSTRACT This investigation was undertaken to evaluate the therapeutic efficacy and safety of glycosylated undenatured type II collagen (UC-II) alone or in combination with glucosamine HCl and chondroitin sulfate in arthritic dogs. Twenty dogs divided into four groups (n = 5) were daily treated orally for 120 days: group I, placebo; group II, 10 mg UC-II; group III, 2,000 mg glucosamine + 1,600 mg chondroitin; group IV, UC-II (10 mg) + glucosamine (2,000 mg) + chondroitin (1,600 mg), followed by a 30-day withdrawal period. On a monthly basis, dogs were examined for overall pain, pain upon limb manipulation, and exercise-associated lameness. Serum samples were analyzed for markers of liver function (ALT and bilirubin) and renal function (BUN and creatinine). Body weight was also measured at a monthly interval. Dogs in group I exhibited no change in arthritic conditions. Dogs receiving UC-II alone showed significant reductions in overall pain within 30 days (33%) and pain upon limb manipulation and exercise-associated lameness after 60 days (66% and 44%, respectively) of treatment. Maximum reductions in pain were noted after 120 days of treatment (overall pain reduction, 62%; pain reduction upon limb manipulation, 91%; and reduction in exercise-associated lameness, 78%). The overall activity of the dogs in the UC-II supplemented with glucosamine and chondroitin group (group IV) was significantly better than the glucosamine + chondroitin-supplemented group (group III). Glucosamine and chondroitin alleviated some pain, but in combination with UC-II (group IV) provided significant reductions in overall pain (57%), pain upon limb manipulation (53%), and exercise-associated lameness (53%). Following withdrawal of supplements, all dogs (groups II to IV) experienced a relapse of pain. None of the dogs in any groups showed any adverse effects or change in liver or kidney function markers or body weight. Data of this placebo-controlled study demonstrate that daily treatment of arthritic dogs with UC-II alone or in combination with glucosamine and chondroitin markedly alleviates arthritic-associated pain, and these supplements are well tolerated as no side effects were noted.

Safety assessment of a novel niacin-bound chromium-based energy formulation.

Over 35 million adults suffer from fatigue or lack of energy. In this study, we assessed the safety of a novel niacin-bound chromium-based Energy Formulation, which also contained caffeine, D-ribose, Withania somnifera extract, and selected amino acids. Niacin-bound chromium is a novel source of bioavailable chromium (III), and known to promote healthy lipid profile. Male and female Sprague-Dawley rats were fed 125 ppm Energy Formulation for 90 consecutive days. Body weight, feed, and water intake were monitored over the period of 90 days. No significant changes were observed between the control and treatment groups following subchronic supplementation with this Energy Formulation. Furthermore, no significant changes were observed in selected organ weights individually and as percentages of body and brain weights. The Energy Formulation supplementation did not cause changes in hepatic lipid peroxidation or DNA fragmentation after 30, 60, or 90 days of treatment. Hematology, clinical chemistry, and histopathological evaluations revealed no adverse effects in the treatment group. These findings demonstrate the safety of this Energy Formulation.

Phosphorylation of small molecular weight polypeptides in the iris-ciliary complex, aqueous humor and vitreous humor.

The polypeptides of vitreous humor, aqueous humor and iris-ciliary complex cells of eyes were phosphorylated with [gamma-32P]ATP without exogenous protein kinase. Phosphorylated polypeptides were analyzed by sodium dodecyl sulfate gel electrophoresis and autoradiography. The phosphorylated polypeptides of rabbit vitreous humor showed many high molecular weight prominent bands, but no detectable phosphoproteins were found in the 12 kDa or lower range. Bovine vitreous humor has predominantly acidic polypeptides and some of them are below 20 kDa. Rabbit and bovine iris-ciliary complex and rabbit aqueous humor showed a prominent common 4 kDa phosphopolypeptide which could also be synthesized by cloned populations of cells from the bovine iris and the rabbit iris-ciliary body. It is possible that the 4 kDa phosphopolypeptide of the aqueous humor is synthesized by the iris-ciliary complex cells.

Studies on the possible role of vitreous humor on protein synthesis and morphology of organ cultured adult rabbit lens. II. Epithelial cells.

The protein synthetic activities of epithelial cells of lenses organ-cultured without adhered vitreous humor manifest significant increase compared to the epithelial cells of lenses incubated with attached vitreous humor. This effect is not due to trauma of vitreous removal, as the addition of freeze-dried vitreous humor to the culture medium of lenses without attached vitreous humor could inhibit protein synthesis. However, the protein synthesis inhibitor in the vitreous humor has no visible effect on the lens morphology. It was also found that the factor from vitreous humor has no effect on mRNA production or cell-free protein synthesis. Thus, it seems that the effect on protein synthesis must be mediated via some other pathway.

Analysis of the functional role of steroid receptor coactivator-1 in ligand-induced transactivation by thyroid hormone receptor.

The nuclear hormone receptors belonging to the steroid/thyroid/retinoid receptor superfamily are ligand-inducible transcription factors. These receptors modulate transcription of specific cellular genes, either positively or negatively, by interacting with specific hormone response elements located near the target promoters. Recent studies indicated that the hormone- occupied, DNA-bound receptor acts in concert with a cellular coregulatory factor, termed coactivator, and the basal transcription machinery to mediate gene activation. Consistent with this scenario, a number of nuclear proteins with potential coactivator function have been isolated. In the present study, we demonstrate that steroid receptor coactivator-1 (SRC-1), a recently isolated candidate coactivator, functions as a positive regulator of the thyroid hormone receptor (TR)-mediated transactivation pathway. In transient transfection experiments, coexpression of SRC-1 significantly enhanced ligand-dependent transactivation of a thyroid hormone response element (TRE)-linked promoter by human TRbeta. Our studies revealed that deletion of six amino acids (451-456) in the extreme COOH-terminal region of TRbeta resulted in a receptor that retained the ability to bind T3 but failed to be stimulated by SRC-1. These six amino acids are part of an amphipathic helix that is highly conserved among nuclear hormone receptors and contains the core domain of the ligand-dependent transactivation function, AF-2. In agreement with this observation, in vitro protein binding studies showed that SRC-1 interacted with a ligand binding domain peptide (145-456) of TRbeta in a T3-dependent manner, whereas it failed to interact with a mutant ligand binding domain lacking the amino acids (451-456). We demonstrated that a synthetic peptide containing the COOH-terminal amino acids (437-456) of TRbeta efficiently blocked the ligand-induced binding of SRC-1 to the receptor. These results suggest that the conserved amphipathic helix that constitutes the AF-2 core domain of TRbeta is critical for interaction with SRC-1 and thereby plays a central role in coactivator-mediated transactivation. We further observed that a heterodimer of TRbeta and retinoid X receptor-alpha (RXR alpha), either in solution or bound to a DR+4 TRE, recruited SRC-1 in a T3-dependent manner. The AF-2 of TR was clearly involved in this process because a TR-RXR heterodimer containing a mutant TRbeta (1-450) with impaired AF-2 failed to bind to SRC-1. Surprisingly, the RXR-specific ligand 9-cis-retinoic acid induced binding of SRC-1 to the RXR component of the TRE-bound heterodimer. This novel finding suggests that RXR, as a heterodimeric partner of TR, has the potential to play an active role in transcriptional regulation. Our results raise the interesting possibility that a RXR-specific ligand may modulate T3-mediated signaling by inducing additional interactions between TRE-bound TR-RXR heterodimer and the coactivator.

A nuclear receptor corepressor modulates transcriptional activity of antagonist-occupied steroid hormone receptor.

Synthetic steroid hormone antagonists are clinically important compounds that regulate physiological responses to steroid hormones. The antagonists bind to the hormone receptors, which are ligand-inducible transcription factors, and modulate their gene-regulatory activities. In most instances, a steroid receptor, such as progesterone receptor (PR) or estrogen receptor (ER), is transcriptionally inactive when complexed with an antagonist and competitively inhibits transactivation of a target steroid-responsive gene by the cognate hormone-occupied receptor. In certain cellular and promoter contexts, however, antagonist-occupied PR or ER acquires paradoxical agonist-like activity. The cellular mechanisms that determine the switch from the negative to the positive mode of transcriptional regulation by an antagonist-bound steroid receptor are unknown. We now provide strong evidence supporting the existence of a cellular inhibitory cofactor that interacts with the B form of human PR (PR-B) complexed with the antiprogestin RU486 to maintain it in a transcriptionally inactive state. In the presence of unliganded thyroid hormone receptor (TR) or ER complexed with the antiestrogen 4-hydroxytamoxifen, which presumably sequesters a limiting pool of the inhibitory cofactor, RU486-PR-B functions as a transcriptional activator of a progesterone-responsive gene even in the absence of hormone agonist. In contrast, hormone-occupied TR or ER fails to induce transactivation by RU486-PR-B. Recent studies revealed that a transcriptional corepressor, NCoR (nuclear receptor corepressor), interacts with unliganded TR but not with liganded TR. Interestingly, coexpression of NCoR efficiently suppresses the partial agonistic activity of antagonist-occupied PR-B but fails to affect transactivation by agonist-bound PR-B. We further demonstrate that RU486-PR-B interacts physically with NCoR in vitro. These novel observations suggest that the inhibitory cofactor that associates with RU486-PR-B and represses its transcriptional activity is either identical or structurally related to the corepressor NCoR. We propose that cellular mechanisms that determine the switch from the antagonistic to the agonistic activity of RU486-PR-B involve removal of the corepressor from the antagonist-bound receptor so that it can effect partial but significant gene activation.

Steroid hormone-dependent interaction of human progesterone receptor with its target enhancer element.

We investigated the requirement of steroid hormone for the specific binding of progesterone receptor to its cognate progesterone responsive element (PRE) in cell-free experiments. We prepared unfractionated nuclear extracts from human breast cancer (T47D) cells which are rich in progesterone receptors and used a gel retardation assay to monitor receptor-DNA complex formation. Exposure of receptor to either progesterone, R5020, or the antiprogestin RU38 486 in vivo or in vitro led to the formation of two protein-DNA complexes (1 and 2) which were not detected in nuclear extracts unexposed to hormone. Similar treatment with cortisol or estradiol failed to induce the formation of these complexes. The complexes were specific for PRE, since they could be competed efficiently in binding competition experiments by oligonucleotides containing PRE. A monoclonal antibody which recognizes both A and B forms of human progesterone receptor, interacted with both complexes 1 and 2 and shifted them to slower migrating forms. Another antibody which only recognizes the B form interacted with only complex 1 but not with complex 2, establishing that the complexes 1 and 2 were indeed formed by progesterone receptor forms B and A, respectively. We conclude from the above studies that in vivo or in vitro treatment of nuclear progesterone receptor with either progesterone or R5020 or RU38 486 alone can lead to detection of high affinity complexes formed between the PRE and the receptor present in unpurified nuclear extracts.

Potential regulation of membrane trafficking by estrogen receptor alpha via induction of rab11 in uterine glands during implantation.

The steroid hormone estrogen profoundly influences the early events in the uterus leading to embryo implantation. It is thought that estrogen triggers the expression of a unique set of genes in the preimplantation endometrium that in turn control implantation. To identify these estrogen-induced genes, we used a delayed implantation model system in which embryo attachment to endometrium is dependent on estrogen administration. Using a mRNA differential display (DD) method, we isolated a number of cDNAs representing mRNAs whose expression is either turned on or turned off in response to an implantation-inducing dose of estrogen. We identified one of these cDNAs as that encoding rab11, a p21ras-like GTP-binding protein (G protein), which functions in the targeting of transport vesicles to the plasma membrane. In normal pregnant rats, rab11 mRNA was expressed at low levels on days 1-2 of pregnancy, but its expression was markedly enhanced (approximately 6- to 8-fold) between days 3-5 immediately before implantation. In situ hybridization and immunocytochemistry revealed that rab11 expression in the uterus was predominantly in the glandular epithelium. In ovariectomized rats, the expression of rab11 mRNA was induced in the endometrium in response to estrogen. To determine whether this effect of estrogen was mediated through its nuclear receptors, we examined rab11 expression in a transformed endometrial cell line, Ishikawa. In transient transfection experiments, we observed that overexpression of estrogen receptor (ER) alpha or beta induced endogenous rab11 mRNA in a hormone-dependent manner. ER bound to an antagonist, ICI 182,780, failed to activate this gene expression. These findings, together with the observation that ER alpha but not ER beta is detected in the glands of the preimplantation uterus, indicate that rab11 is one of the proteins that are specifically induced by estrogen-complexed ER alpha in rat endometrium at the onset of implantation. Our results imply that estrogen, which induces the synthesis of many growth factors and their receptors and other secretory proteins that are thought to be critical for implantation, may also facilitate their transport to the membrane and/or secretion by stimulating the expression of rab11, a component of the membrane-trafficking pathway. This study therefore provides novel insights into the diverse cellular mechanisms by which estrogen, acting via its nuclear receptors, may influence blastocyst implantation.

Efficacy of a novel calcium/potassium salt of (-)-hydroxycitric acid in weight control.

The weight-loss efficacy of a novel, water-soluble, calcium-potassium salt of (-)-hydroxycitric acid (HCA-SX) was re-examined in 90 obese subjects (BMI: 30-50.8 kg/m2). We combined data from two previously reported randomized, double-blind, placebo-controlled clinical studies in order to achieve a better statistical evaluation based on a larger population. This re-examination of data also allowed us to reflect more intensely on various aspects of weight loss studies. Subjects were randomly divided into three groups: group A received a daily dose of HCA-SX 4, 667 mg (providing 2,800 mg HCA per day); group B was given a daily dose of a combination of HCA-SX 4,667 mg, niacin-bound chromium (NBC) 4 mg (providing 400 microg elemental chromium), and Gymnema sylvestre extract (GSE) 400 mg (providing 100 mg gymnemic acid); and group C received a placebo in three equally divided doses 30-60 min before each meal. All subjects were provided a 2,000 kcal diet/day and participated in a supervised walking program for 30 min/day, 5 days/week. Eighty-two subjects completed the study. At the end of 8 weeks, in group A, both body weight and BMI decreased by 5.4%, low-density lipoprotein and triglycerides levels were reduced by 12.9% and 6.9%, respectively, while high-density lipoprotein levels increased by 8.9%, serum leptin levels decreased by 38%, serotonin levels increased by 44.5% and urinary excretion of fat metabolites increased by 32-109%. Group B demonstrated similar beneficial changes, but generally to a greater extent. No significant adverse effects were observed. The combined results confirm that HCA-SX and, to a greater degree, the combination of HCA-SX plus NBC and GSE reduce body weight and BMI, suppress appetite, improve blood lipid profiles, increase serum leptin and serotonin levels and increase fat oxidation more than placebo. We conclude that dosage levels, timing of administration, subject compliance and bioavailability of HCA-SX significantly affect results and that when taken as directed, HCA-SX is a highly effective adjunct to healthy weight control.

Safety of a Novel Botanical Extract Formula for Ameliorating Allergic rhinitis. Part II.

Abstract Each year more than 50 million Americans suffer from allergic rhinitis, which is a state of hypersensitivity or hyperimmunity. Basically, allergic rhinitis is symptomatically recognized as the inflammation and irritation of the nasal mucosal membranes; sneezing; stuffy/runny nose; nasal congestion; and itchy; watery, and swollen eyes; and defined as a state of hypersensitivity/ hyperimmunity caused by exposure to a particular allergen (antigen) that results in increased reactivity upon subsequent exposure. A novel polyherbal formulation (Aller-7/NR-A2) was developed for the treatment of allergic rhinitis using a unique combination of extracts from seven medicinal plants, including Phyllanthus emblica, Terminalia chebula, Terminalia bellerica, Albizia lebbeck, Piper nigrum, Zingiber officinale, and Piper longum. Earlier studies in our laboratories have demonstrated potent antihistaminic, anti-inflammatory, antispasmodic, antioxidant, and mast-cell stabilization activities of Aller-7 in addition to its efficacy in a clinical setting. A series of preliminary toxicological evaluations were also conducted in the past, which demonstrated its safety. In this study, we have conducted further safety studies on Aller-7, including acute oral, acute dermal, acute dermal irritation, eye irritation, and 90-day repeated dose toxicity studies. Acute oral toxicity of Aller-7 was found to be greater than 5,000 mg/kg body weight in both male and female rats and no mortality or toxicity was observed at this dose, while the acute dermal toxicity was found to be greater than 2,000 mg/kg body weight. In the acute dermal irritation study, the skin irritancy index was found to be 0.0, which classifies Aller-7 as a nonirritant to rabbit skin. In the acute eye irritation study, Aller-7 was found to have minimal irritancy to eyes of rabbits. In the repeated-dose 90-day oral toxicity study, Aller-7 was administered at dose levels of 100, 300, and 1,000 mg/kg rat body weight for 90 consecutive days by oral gavage. Aller-7 did not induce any significant change in the hematological parameters. No ocular abnormalities were observed. Some minor histopathological changes were observed, but did not reveal any significant treatment-related histopathological changes. The above findings revealed that the no observed adverse effect level (NOAEL) of Aller-7 is greater than 1,000 mg/kg body weight. Taken together, these studies demonstrate the broad spectrum safety of Aller-7.