Bioengineered human growth hormone supports limb regeneration in the hypophysectomized newt Notophthalmus viridescens

It is well documented that growth hormone (GH) replacement therapy will restore normal limb regeneration to hypophysectomized adult newts. However, it is also known that the GH preparations used in previous reports were contaminated by other pituitary hormones shown to support regeneration when administered free of GH. The recent availability of bioengineered human GH was studied for its ability to restore the regenerative capacity to hypophysectomized newts. Five days posthypophysectomy adult newts were subject to forelimb amputation distal to the elbow. Animals were divided into three groups (n greater than 20). Each received one of three GH preparations: pituitary-derived bovine GH, pituitary-derived human GH, or bioengineered human GH. GH was administered via intraperitoneal injection (0.029 IU/50 microliters) on alternate days for either the first 5 days (total of 3 injections) or for 35 days (total of 18 injections). Pituitary-intact and hypophysectomized control newts were subjected to forelimb amputation and injected with hormone diluent. All newts that received GH demonstrated normal limb regeneration to the early digitiform stage by 35 days postamputation. None of the hypophysectomized control newts showed any evidence of regeneration. We conclude that GH alone can restore the ability to undergo normal limb regeneration to hypophysectomized newts.     

Limb regeneration following the discontinuation of growth hormone therapy in the hypophysectomized newt,Notophthalmus viridescens

Untreated adult newts do not undergo normal limb regeneration following hypohysectomy. A fibrocellular dermal barrier (cicatrix) atypically forms between the apical epithelium and the underlying mesenchymal tissues. Historically, continuous administration of growth hormone or of prolactin in combination with thyroxine restored regenerative capacity to these newts. In a previous investigation, we demonstrated that the initial effect of these two hormone treatments, when administered on alternate days to hypophysectomized newts beginning eight days post-amputation, was to facilitate the erosion of the fibrocellular barrier and establish the epithelial mesenchymal interface that is observed in a regenerating limb. The present investigation was designed to evaluate the necessity of continuous hormone therapy to maintain limb regeneration in hypophysectomized newts. One, two, or three injections of growth hormone or of prolactin in combination with thyroxine was administered on successive alternate days to hypophysectomized newts either immediately following limb amputation (ID) or beginning eight days post-amputation (DD). The ID and DD newts receiving one, two, or three injections of growth hormone showed evidence of regeneration to the digitiform stage by day 30 post-amputation, while those receiving prolactin and thyroxine underwent wound healing. While both hormone treatments initially promoted a dermis-free apical epithelium, only hypophysectomized newts that had received growth hormone were able to continue regenerating. We have, therefore, concluded that discontinuous growth hormone therapy is sufficient to initiate and maintain the conducive environment for limb regeneration to advanced stages in the hypophysectomized newt. While initiating this process, prolactin and thyroxine therapy on a discontinuous regime does not maintain regeneration. The direct and indirect role of growth hormone in supporting limb regeneration in normal and hypophysectomized newts is discussed.     

An investigation of the prolactin-thyroxine synergism in newt limb regeneration

The use of hormone replacement to support limb regeneration in hypophysectomized newts has been the subject of many investigations. Growth hormone, as well as prolactin (PL) in combination with exogenously supplied thyroxine, have all been shown to he effective. However, the bovine growth hormone used to support limb regeneration was contaminated by prolactin and thyroidstimulating hormone (TSH). The present investigation evaluates the significance of (1) prolactin contamination and (2) endogenous thyroxine synthesis resulting from TSH contamination on limb regeneration in hypophysectomized newts. The effect of supplying exogenous thyroxine was also evaluated. Our studies showed that when hypophysectomized newts were injected with contamination levels of PL and TSH, regeneration occurred, suggesting that the newt's thyroid synthesized sufficient thyroxine to support a prolactin-thyroxine synergism. The endogenous thyroxine was synthesized by thyroid glands that were indistinguishable from those of saline-injected, hypophysectomized controls.     

The effect of hypophysectomy upon cholinesterase activity in the forelimbs of regenerating adult Notophthalmus news

In order to study endocrine influence upon cholinesterase activity during regeneration, adult newts were hypophysectomized either prior to limb transection or during regeneration. Homogenates of limb tissues were assayed for cholinesterase activity during each stage of regeneration.In animals with pituitaries intact, cholinesterase activity in regenerating limb tissues decreases soon after amputation, and then it rises to the level of activity in intact limbs of normal animals, during the period of differentiation. In hypophysectomized newts there seems to be no alteration of this basic pattern of activity, but removal of the pituitary does result in more elevated levels of enzymatic activity. In the intact forelimbs of control newts undergoing regeneration, cholinesterase activity greatly increases as the other transected limb begins to regenerate but it returns to normal as regeneration progresses. If these animals are hypophysectomized, no such increase is observed during the early stages of regeneration. Rather, there is an initial decrease in cholinesterase activity that is followed by an increase in such activity.These data are compatible with the hypothesis that the pituitary modulates cholinesterase activity in the limb tissues of adult newts.     

Endocrine Regulation of Fetal Adipose Tissue Metabolism in the Pig: Interaction of Porcine Growth Hormone and Thyroxine

HAUSMAN, D.B., G.J. HAUSMAN, AND R.J. MARTIN. Endocrine regulation of fetal adipose tissue metabolism in the pig: interaction of porcine growth hormone and thyroxine. Obes Res. 1999;7:76–82. Objective : This study tested the hypothesis that combined treatment of thyroxine (T₄) and growth hormone (GH) could normalize cellular and metabolic aspects of adipose tissue development of hypophysectomized fetal pigs. Research Methods and Procedures : On day 70 of gestation, pig fetuses were hypophysectomized by microcauterization or remained intact. Hypophysectomized fetuses remained untreated or were treated from day 90 to day 105 of gestation with T₄, GH, or a combination of both hormones. Results : Body weights were unaffected by hypophysectomy or hormone treatment. De novo lipogenesis in subcutaneous adipose tissue was increased 10-fold by hypophysectomy, consistent with our previous results. This increase was abolished by GH treatment in the hypophysectomized fetuses. In contrast, T₄ treatment of the hypophysectomized fetuses resulted in a 12-fold further increase in adipose tissue lipogenesis, an effect that was negated by concomitant administration of GH. Lipolytic response to isoproterenol was decreased by hypophysectomy, unaffected by GH treatment, and restored to intact values by T₄ or by T₄+GH treatment in the hypophysectomized fetuses. Discussion : In contrast to T₄, GH does not influence serum insulin-like growth factor-I or adipose tissue lipolysis, but decreases lipogenesis in the fetal pig. However, replacing both T₄ and GH normalized hypophysectomized fetuses to a greater extent than either GH or T₄ alone. Thus, any influence of thyroid hormones on stimulating adipose tissue lipogenesis in the developing fetal pig may be normally counterregulated by pituitary-derived growth hormone.     

Limb regeneration and survival of prolactin treated hypophysectomized adult newts

Hypophysectomized adult newts exhibited 98% survival and limb regeneration at 23 days post-hypophysectomy when injected intraperitoneally every other day with prolactin (0.015 U/newt) and kept continuously in aquaria with 1 × 10^?7 concentration of thyroxine. Thyroxine alone was no more effective than saline injections. Prolactin (1.2 U/newt every other day) alone increased survival and limb regeneration, but less effectively than did the prolactin-thyroxine combination.     

Hox C6 expression during development and regeneration of forelimbs in larval Notophthalmus viridescens

 A central theme concerning the epimorphic regenerative potential of urodele amphibian appendages is that limb regeneration in the adult parallels larval limb development. Results of previous research have led to the suggestion that homeobox containing genes are ”re-expressed” during the epimorphic regeneration of forelimbs of adult Notophthalmus viridescens in patterns which retrace larval limb development. However, to date no literature exists concerning expression patterns of any homeobox containing genes during larval development of this species. The lack of such information has been a hindrance in exploring the similarities as well as differences which exist between limb regeneration in adults and limb development in larvae. Here we report the first such results of the localization of Hox C6 (formerly, NvHBox-1) in developing and regenerating forelimbs of N. viridescens larvae as demonstrated by whole-mount in situ hybridization. Inasmuch as the pattern of Hox C6 expression is similar in developing forelimb buds of larvae and epimorphically regenerating forelimb blastemata of both adults and larvae, our results support the paradigm that epimorphic regeneration in adult newts parallels larval forelimb development. However, in contrast with observations which document the presence of Hox C6 in both intact, as well as regenerating hindlimbs and tails of adult newts, our results reveal no such Hox C6 expression during larval development of hindlimbs or the tail. As such, our findings indicate that critical differences in larval hindlimb and tail development versus adult expression patterns of this gene in these two appendages may be due primarily to differences in gene regulation as opposed to gene function. Thus, the apparent ability of urodeles to regulate genes in such a highly co-ordinated fashion so as to replace lost, differentiated, appendicular structures in adult animals may assist, at least in part, in better elucidating the phenomenon of epimorphic regeneration. Received: 6 November 1998 / Accepted: 12 December 1998     

Hormone action in newt limb regeneration: insulin and endorphins

Although several hormones have been linked to newt limb regeneration, a cohesive hypothesis as to how these hormones control the process is yet to emerge. A critical review of the traditional approaches and a reevaluation of currently operative assumptions and interpretations of results precede the data on insulin and beta-endorphin. Results from in vivo and in vitro experiments on insulin are summarized, showing that insulin not only promotes various cellular events but also is essential for the expression of the mitogenic effect of nerves on cultured newt limb blastemata. Furthermore, the strong likelihood that insulin may be the common link in promoting limb regeneration in hypophysectomized newts that received pituitary hormone replacement therapy or a nutritional supplement is discussed. The status of beta-endorphin in regeneration is also explored. Data are presented to show that vertebrates with regenerating capacity (newts, tadpoles) have higher levels of plasma beta-endorphin than that found in species where the capacity to regenerate is either restricted (frogs) or totally lost (mammals). beta-Endorphin-like immunoreactivity has been localized in the epidermis of a regenerating newt blastema, as well as in the intermediate lobe of the pituitary gland of axolotl, newt, and Xenopus. A possible opiate connection in vertebrate limb regeneration, in particular, wound healing, is discussed.     

The histology of inhibition of limb regeneration in the newt, Triturus, by actinomycin D

Adult newts, Triturus viridescens, were treated with from 1.0–10.0 μg/g body weight of actinomycin D one day before amputation of both forelimbs. Mean survival times ranged from over 50 days in newts treated with 1.0 μg/g to 13.2 days in animals given 10.0 μg/g body weight of actinomycin. Low doses little altered the course of regeneration, but animals treated with over 2.0 μg/g never formed blastemas. In another series, animals were given doses of 2.5 μg/g body weight of actinomycin D at intervals from 14 days before to 30 days after amputation. It was found that certain signs of toxicity (loss of equilibrium) are related to the time of administration of the drug whereas others (hemorrhage into the limb stumps) are restricted to a definite phase of the regenerative process. Early administration of actinomycin completely inhibits regeneration whereas later treatment results in a considerably lessened effect. The postamputational stages which are basically destructive in nature are not noticeably affected by actinomycin D, but the phases of dedifferentiation, blastema formation and redifferentiation are strongly inhibited.     

Protein synthesis in the brain of newts undergoing limb regeneration.

The nervous system plays an important role during the process of amphibian limb regeneration. However, the molecules that are involved in such a control of regeneration are largely unknown. We have attempted to map protein synthesis in the brains of intact newts and from newts undergoing limb or tail regeneration. Our results show unique protein synthesis in the brain of newts undergoing limb regeneration. Such an analysis can lead to the identification and characterization of these proteins.     

Imparting Regenerative Capacity to Limbs by Progenitor Cell Transplantation

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Highlights? Transplantation of limb progenitor cells promotes multiple digit regenerates ? Wnt/β-catenin activation is required to stimulate adult frog limb regeneration ? Growth factors promote cell survival and growth and give pattern information ? Regeneration-incompetent host limb cells contribute to the regenerated limbs     

Ability of growth hormone fragments to compete with I-iodinated human growth hormone for specific binding to isolated adipocytes of hypophysectomized rats

Several noncovalent complexes of large fragments of human GH, which are less active than native human GH in stimulating glucose metabolism in adipose tissue of hypophysectomized rats, were tested for their ability to compete with ¹²⁵I-iodinated human GH for specific binding to isolated adipocytes of hypophysectomized rats. The complexes tested were A (residues 1–134 + residues 141–191; S-carbamidomethylated), B (residues 1–134 + residues 135–191; S-carbamidomethylated) and C (residues 1–134 + residues 135–191; S-carboxymethylated). When compared to native human GH, the complexes were less active in competing with ¹²⁵I-iodinated human GH for specific binding to adipocytes, and their order of potency in the binding assay (A > B > C) was similar to that of their respective activities in stimulating glucose metabolism in isolated adipose tissue of hypophysectomized rats.     

Effects of Growth Hormone on the Function of β‐Adrenoceptor Subtypes in Rat Adipocytes

Objective: The influence of growth hormone (GH) on the regulation of lipolytic response to specific agonists to β‐adrenoceptors and several post‐receptor steps in the lipolytic cascade were investigated. Research Methods and Procedures: Adipose tissues from rats were incubated with or without GH (1.38 nM). After a 24‐hour incubation, isolated adipocytes were prepared for different assays. Rats were hypophysectomized. One week after operation, l‐thyroxine and hydrocortisone acetate was given to hypophysectomized rats. One group of rats was treated with GH (1.33 mg/kg, daily). After 1 week of hormonal treatment, adipose tissues were removed for different studies. Results: GH treatment increased both basal lipolysis and lipolytic sensitivity to dobutamine and CGP 12177 in adipocytes. The lipolytic sensitivity to terbutaline was not influenced by GH treatment. GH treatment increased the maximal lipolytic response to dobutamine and CGP 12177, but not to terbutaline as determined with absolute values of lipolysis. Forskolin‐induced lipolysis was increased by addition of GH to tissues. Moreover, GH treatment resulted in enhanced expression of hormone‐sensitive lipase. GH treatment in hypophysectomized rats influenced neither the expressions of Gαs protein and cholera toxin‐catalyzed adenosine diphosphate‐ribosylation of Gαs protein, nor cholera toxin‐induced 3′, 5′‐cyclic adenosine monophosphate accumulation. However, the expression of Gαi protein was decreased after GH treatment. Discussion: These and previous results suggest that GH increases lipolysis in rat adipocytes partly through the β‐adrenergic system, including increases in both β₁‐ and β₃‐adrenergic receptor function, and partly through enhanced adenylate cyclase function, and expression of hormone‐sensitive lipase, perhaps via a decrease in Gαi protein expression.     

Hypophysectomy Prevents Ghrelin-Induced Adiposity and Increases Gastric Ghrelin Secretion in Rats

Objective: The novel gastric hormone ghrelin has recently been identified as an important modulator of energy homeostasis. Leptin-responsive hypothalamic neuropeptide Y/Agouti-related protein neurons are believed to mediate afferent ghrelin signals. Little is known, however, about ghrelin-induced efferent signals. We therefore investigated if hypothalamic-pituitary axes have a role in transferring ghrelin-induced changes of energy balance to the periphery. Research Methods and Procedures: We subcutaneously injected hypophysectomized, as well as adrenalectomized, thyroidectomized, and sham-operated control rats with GH secretagogues [ghrelin, growth hormone (GH)-releasing peptide] for 1 week. Body weight, food intake, and body composition (chemical carcass analysis) were analyzed and compared with vehicle-treated controls. In addition, we quantified circulating levels of endogenous ghrelin in hypophysectomized and GH–treated normal rats. Results: GH-secretagogue treatment of sham-operated control rats dose-proportionally increased food intake, body weight, and fat mass compared with vehicle-injected controls (p < 0.01). These effects, however, were not observed in ghrelin-treated hypophysectomized, thyroidectomized, or adrenalectomized rats, indicating an essential role for the pituitary axis in ghrelin-induced adiposity. Circulating levels of endogenous ghrelin were reduced by administration of GH in normal rats and were about 3-fold higher in hypophysectomized rats (n = 20, p = 0.001), suggesting a regulatory feedback loop involving the stomach and the pituitary to regulate gastric ghrelin secretion. Discussion: According to these results, the endocrine pituitary is mediating ghrelin-induced changes toward a positive energy balance and is involved in the regulation of ghrelin secretion through a gastro-hypophyseal feedback loop.     

Molecular genetic system for regenerative studies using newts

Urodele newts have the remarkable capability of organ regeneration, and have been used as a unique experimental model for more than a century. However, the mechanisms underlying regulation of the regeneration are not well understood, and gene functions in particular remain largely unknown. To elucidate gene function in regeneration, molecular genetic analyses are very powerful. In particular, it is important to establish transgenic or knockout (mutant) lines, and systematically cross these lines to study the functions of the genes. In fact, such systems have been developed for other vertebrate models. However, there is currently no experimental model system using molecular genetics for newt regenerative research due to difficulties with respect to breeding newts in the laboratory. Here, we show that the Iberian ribbed newt (Pleurodeles waltl) has outstanding properties as a laboratory newt. We developed conditions under which we can obtain a sufficient number and quality of eggs throughout the year, and shortened the period required for sexual maturation from 18 months to 6 months. In addition, P. waltl newts are known for their ability, like other newts, to regenerate various tissues. We revealed that their ability to regenerate various organs is equivalent to that of Japanese common newts. We also developed a method for efficient transgenesis. These studies demonstrate that P. waltl newts are a suitable model animal for analysis of regeneration using molecular genetics. Establishment of this experimental model will enable us to perform comparable studies using these newts and other vertebrate models.     

The morphology of the mucous gland and its responses to prolactin in the skin of the red-spotted newt

The mucous gland of the red-spotted newt, Notophthalamus viridescens viridescens, Rafinesque was examined by histochemical and ultrastructural techniques and its cytological responses to various hormonal conditions were studied. Its secretory epithelial cells produce and release in merocrine fashion a neutral, unsulphated mucosubstance. The secretory epithelium is bounded peripherally by a thin, but apparent non-functional, myo-epithelium. The duct of this mucous gland consists of a single keratinized tubular cell that extends from the neck region of the gland to the surface of the epidermis. Mucous secretion is absent or greatly reduced on the skins of newts maintained under laboratory conditions for a few weeks but reappears after injection of ovine prolactin. Mucous glands in laboratory conditioned animals show a 4-fold increase in volume brought about by the engorgement of their epithelial cells with secretory granules. Ovine prolactin reduces the volume of the glands to unconditioned levels with a corresponding reduction in granular content, suggesting that prolactin functions in the release of the granules. This view is reinforced by the findings that autotransplantation of the pituitary gland prevents the conditioning effect and that glandular volume increases in auto-transplanted animals given ergocornine. Granular accumulation begins also in hypophysectomized newts but ceases after a week, indicating the need for some hypophyseal factor in the synthesis as well as the release of the granules. Ovine prolactin restores mucous glands of hypophysectomized newts to the unconditioned state. Contrary to earlier findings, ovine prolactin induces a reduction in the volume of the mucous gland in thyroidectomized newts.     

Comparison of mauthner cell size in sexually developed and undeveloped male red-bellied newts

Differences in Mauthner (M) cell size were examined in sexually developed and undeveloped male red-bellied newts, Cynops pyrrhogaster. The mean areas of nuclei and cell bodies of M cells and mean maximum and minimum diameters of the cell bodies in the sexually developed males were significantly larger than those in the sexually undeveloped ones. In the hypophysectomized male newts, all these parameters were not significantly different from those in the sexually undeveloped ones. These values were significantly increased by treatment with both bovine prolactin and human chorionic gonadotropin every other day for 3 weeks after hypophysectomy, and these measures were comparable to those in the sexually developed males. These findings suggest that differences in M cell size between sexually developed and undeveloped male newts are due to alteration in hormonal milieu. © 1995 John Wiley & Sons, Inc.     

DEVELOPMENTAL CHANGES IN Na+, K+ AND ATP AND IN THE LEVELS AND TRANSPORT OF AMINO ACIDS IN INCUBATED SLICES OF RAT BRAIN

Abstract—

• 1 Upon incubation, slices of brain tissue took up fluid; the degree of swelling increased with increasing age. No sweiling occurred in slices from foetal brain. Since this swelling was associated with increases in the inulin space, the percentage of inulin space in slices at the end of incubation increased during brain development.
• 2 Most of the capacity for ion transport seemed to be absent from foetal brain. In vivo and in slices, Na⁺ was very high and K⁺ was very low in comparison to levels at other ages. There was a rapid change around birth, but no significant change at later ages. Upon incubation, Na⁺ levels increased in other slices, but not in slices of foetal brain.
• 3 Upon incubation of the slices, ATP levels were restored to levels close to those in the living brain; there were no significant alterations in available energy during development to explain changes in amino acid transport.
• 4 The composition of the free pool of cerebral amino acids in vivo changed with development, with some compounds (glutamic acid and related compounds) increasing, others (mostly‘essential’amino acids) decreasing, with age. These changes were not linear with time, and the level of a compound might exhibit several peaks during development.
• 5 The uptake (influx) of taurine, glutamate and glycine into brain slices increased rapidly during the foetal and early neonatal periods, reached a maximum between 2 and 3 weeks of postnatal age and then declined to adult levels. The levels of steady-state uptake with glycine also exhibited a maximal peak at 2-3 weeks of postnatal age. Steady-state uptake of taurine and glutamate reached adult levels by about 3 weeks of age.
• 6 The pattern of inhibition of amino acid transport by two specific amino acid analogues changed during development for some amino acids (GABA, glycine and glutamate), indicating an alteration in substrate specificity.
• 7 The results demonstrate complex changes in cerebral amino acid transport during development, with several maxima or minima and with changes in specificity for at least some compounds.

     

Forelimb regeneration in thyroidectomized adult newts following organ culture and autografting of the thyroid glands

Summary Thyroidectomy and organ culture of adult newt thyroid glands three days prior to forelimb amputation was followed by autografting the glands subcutaneously into the animal's lower jaw region 9, 18 or 25 days postamputation (GC^{9, 18, 25} day series). This was an attempt, utilizing 515 animals, to elucidate further the role of the thyroids in regeneration. Amputated limbs of the thyroidectomized (Thx) and autografted muscle explant (MC = sham) cases underwent stumping or were significantly delayed in their regeneration rate and displayed abnormal morphogenesis compared with control regenerates. In the GC⁹ series newts, regenerates were identical to controls 45 days postamputation. However, regenerates of the GC¹⁸ series cases exhibited delayed and abnormal development at 45 days; but they were not as delayed and had fewer abnormalities than those cases in the Thx and MC groups. Results of the GC²⁵ series newts were similar to those of the Thx group. Within 5 days of autografting the thyroids, epidermal moulting resumed and long-term survival ensued. We conclude that normal limb regeneration in the adult newt is thyroid hormone(s) dependent, specifically the later stages of growth, differentiation and morphogenesis.Supported by grant A-1208 from the Natural Sciences and Engineering Research Council of Canada to R.A.L.     

Regulation of reserve mobilisation in sunflower during late seedling establishment in continuous darkness

• Reserve mobilisation, metabolite partitioning and reserve‐degrading enzyme activity were studied in sunflower seedlings cultivated in vitro under a 12‐h photoperiod or in the dark to investigate the involvement of source–sink relation and carbon starvation in the regulation of reserve mobilisation under continuous darkness.
• Reserves, metabolites and enzyme activity were determined with standard spectrophotometric methods.
• At the first 24 h of treatment (acclimation phase), darkness did not affect growth, but restricted carbon and nitrogen use, as indicated by sugar and amino acid accumulation in the different seedling parts. After 5 days of treatment (survival phase), extended darkness limited growth and retarded storage lipid mobilisation due to carbon starvation, as evidenced by the depletion of carbohydrates in cotyledons and hypocotyl, as well as the consumption of amino acids in hypocotyls and roots.
• Alterations in the source–sink relationship might have been a response to prolonged darkness, instead of a mechanism used to regulate reserve mobilisation, as these alterations cannot be associated with negative feedback mediated by metabolite accumulation. Storage lipid degradation depends, at least in part, on mechanisms that co‐ordinately regulate the activities of lipases and isocitrate lyase. Taking these results together, it is possible that reserve mobilisation in sunflower seedlings cultivated in the dark might be regulated by mechanisms that perceive the absence of light and predict carbon starvation, adjusting reserve use according to future energy demands to allow, at least in the short term, seedling survival.