Radicicol enhances the regeneration of skeletal muscle injured by crotoxin via decrease of NF-kB activation.

This study evaluated cellular and molecular effects of radicicol, a heat shock protein (HSP) inducer, on the regeneration of skeletal muscle injured by crotoxin, the main toxin isolated from Crotalus durissus terrificus venom. Regenerating muscles treated with radicicol had decreased NF-kB activation. Differentiating myoblasts treated with radicicol showed reduced number of NF-kB positive nuclei and increased fusion index. The results suggest that radicicol enhances regeneration of muscle by attenuating NF-kB activation and increasing myogenic differentiation.

Venom production in long-term primary culture of secretory cells of the Bothrops jararaca venom gland.

There is an increasing interest of obtaining venom by other ways than from extracting it from snakes captured in the wild. A readily available source of this venom will be useful for all pharmacological and biotechnological studies, as well as providing an improved avenue for treatments of snakebites. Here, we show that secretory cells of venom gland can be a good in vitro apparatus to produce venom. We have maintained and morphologically characterized the secretory cells of the Bothrops jararaca venom gland cultured up to 21 days. The isolated cells assemble into acini that growth in size up to 21st day, instead of adhering to the substrate. Bothropasin, a venom metalloprotease, was localized in secretory vesicles by immunoelectron microscopy and venom was also detected in culture medium in a concentration as high as 63 microg/ml. These data show that the acini formed in culture are functionally viable; they can produce and secrete venom.

Reproductive cycle of the Neotropical Crotalus durissus terrificus: I. Seasonal levels and interplay between steroid hormones and vasotocinase.

Crotaline snakes present delayed fertilization and sperm storage because secondary vitellogenesis is not completed by the time of mating. The release of vitellogenesis and synchrony between ovulation and fertilization suggest a steroidal modulation. We investigated changes of sexual steroid levels during reproduction in the Neotropical rattlesnake Crotalus durissus terrificus, analyzing macroscopical variations of reproductive condition (vitellogenesis, pregnancy, and post-partum) and plasma levels of estradiol, progesterone, and vasotocinase cystine aminopeptidase (CAP) activity over 2 years. Data showed 44.4% non-reproductive snakes (40.1% primary vitellogenesis and 4.3% post-partum) and 55.6% reproductive (36.8% secondary vitellogenesis and 18.8% pregnant). Estradiol was low in spring and summer, increasing in autumn till it peaked in winter. Estradiol in secondary vitellogenesis was significantly higher than in primary vitellogenesis, or in pregnant and post-partum females, Progesterone dropped significantly in autumn compared to summer, winter, and spring. Pregnant females showed the highest levels of progesterone compared to primary or secondary vitellogenesis, or post-partum females. CAP activity showed lowest values in reproductive females in autumn and greatest levels in post-partum females. A significant negative linear relationship was obtained between CAP activity and estradiol. The combination of morphological observations, levels of steroids and CAP activity allowed us to suggest a similar morphological reproductive pattern between temperate and tropical rattlesnakes, and to infer the role of estradiol, progesterone and CAP activity on vitellogenesis, gestation and sperm storage, respectively.

Reproductive cycle of the Neotropical Crotalus durissus terrificus: II. Establishment and maintenance of the uterine muscular twisting, a strategy for long-term sperm storage.

Crotaline snakes store sperm by means of a uterine musculature twisting (UMT). We investigated the influence of plasma levels of estradiol and progesterone and vasotocinase cystine aminopeptidase (CAP) activity on UMT formation and maintenance, and the in vitro uterine reactivity for AVT in Crotalus durissus terrificus in primary or secondary vitellogenesis with or without UMT. Frequency of females in secondary vitellogenesis with UMT is significantly higher than in primary one. Estradiol levels did not vary in all conditions studied, however, significantly low levels of progesterone were found in snakes in secondary vitellogenesis with UMT compared to those without it. UMT is always observed when high levels of estradiol and low levels of progesterone are detected. CAP activity did not change in the presence of UMT. AVT produced concentration-response contractions of the isolated uterus of snakes in all stages analysed and the pD2 value and maximum contractile response were significantly higher in primary vitellogenesis without UMT than in other reproductive conditions, indicating that uterus of those snakes presents a higher contractile capacity which may favour UMT establishment. In conclusion, we show a relationship of UMT and estradiol/progesterone balance and a possible participation of AVT in UMT formation and maintenance in the Neotropical rattlesnake.

Reproductive cycle of the Neotropical Crotalus durissus terrificus II Establishment and maintenance of the uterine muscular twisting, a strategy for long-term sperm storage

Crotaline snakes store sperm by means of a uterine musculature twisting (UMT). We investigated the inXuence of plasma levels ofestradiol and progesterone and vasotocinase cystine aminopeptidase (CAP) activity on UMT formation and maintenance, and the invitro uterine reactivity for AVT in Crotalus durissus terriWcus in primary or secondary vitellogenesis with or without UMT. Frequencyof females in secondary vitellogenesis with UMT is signiWcantly higher than in primary one. Estradiol levels did not vary inall conditions studied, however, signiWcantly low levels of progesterone were found in snakes in secondary vitellogenesis with UMTcompared to those without it. UMT is always observed when high levels of estradiol and low levels of progesterone are detected.CAP activity did not change in the presence of UMT. AVT produced concentration–response contractions of the isolated uterus ofsnakes in all stages analysed and the pD2 value and maximum contractile response were signiWcantly higher in primary vitellogenesiswithout UMT than in other reproductive conditions, indicating that uterus of those snakes presents a higher contractile capacitywhich may favour UMT establishment. In conclusion, we show a relationship of UMT and estradiol/progesterone balance and apossible participation of AVT in UMT formation and maintenance in the Neotropical rattlesnake.

Characterization of beta-adrenoceptors responsible for venom production in the venom gland of the snake Bothrops jararaca.

We have shown that the stimulation of beta-adrenoceptors is an important step in venom production in the Bothrops jararaca venom gland. In the present study, the pharmacological profile of the beta-adrenoceptor present in Bothrops jararaca venom gland was characterized by radioligand binding assay and by the ability of isoprenaline to promote accumulation of cyclic AMP in dispersed secretory cells. In both cases, the venom glands were obtained from non-extracted snakes (quiescent stage) or from snakes which venom was extracted 4 days before sacrifice (venom production stimulated stage). [125I]-iodocyanopindolol ([125I]-ICYP) bound to extracted gland membranes in a concentration-dependent and saturable manner, but with low affinity. Propranolol, beta1- or beta2-selective adrenoceptors ligands displaced the [125I]-ICYP binding with low affinity, while selective beta3-adrenoceptor ligands did not displace the [125I]-ICYP binding. The displacement of [125I]-ICYP by propranolol was similar in non-extracted and extracted glands, showing the presence of beta-adrenoceptors in both stages. In dispersed secretory cells of non-extracted glands, isoprenaline (1 microM) increased the cyclic AMP production and propranolol (10 microM) was able to block this effect. On the other hand, in extracted glands, isoprenaline had no effect. The results suggest that the beta-adrenoceptors present in the Bothrops jararaca venom glands are different from those (beta1, beta2 or beta3) described in mammals, but are coupled to the Gs protein, like the known beta-adrenoceptor subtypes. Moreover, previous in vivo stimulation of venom production desensitizes the beta-adrenoceptors system and, although the receptors could be detected by binding studies, they are not coupled to the Gs protein, indicating that beta-adrenoceptors stimulation contributes to the initial steps of venom synthesis.

Variability of bothrojaracin isoforms and other venom principles in individual jararaca (Bothrops jararaca) snakes maintained under seasonally invariant conditions.

Bothrojaracin (BJC) is a potent thrombin inhibitor isolated from the venom of Bothrops jararaca. Venoms from individual snakes have been shown to vary in BJC content, and more than one molecular variant (isoform) has been identified in the same venom. In order to determine whether the production of this protein and its isoforms varies under seasonally invariant conditions, an analysis was made of BJC isolated from venoms collected individually once a month for 10 months from two female B. jararaca snakes kept under conditions of constant temperature and photoperiod. The crude venom from each individual snake exhibited a characteristic pattern of protein bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), with no noticeable variation throughout the collecting period. BJC from individual venoms was purified by gel filtration on Sephacryl S-200 followed by an affinity column (PPACK-thrombin Sepharose). BJC content and other activities such as phospholipase A2, azocaseinolytic activity and inhibition of thrombin-induced platelet aggregation varied considerably among the samples. Purified BJC from both snakes inhibited fibrin coagulation and migrated as a single band of 27,000 mol. wt on SDS-PAGE. However, the BJC pattern on non-denaturing PAGE differed between the two snakes, with four to six bands per sample each month, which were all recognized by polyclonal anti-BJC antibodies. The isoelectric focusing pattern of BJC was also characteristic for each snake, with only minor differences throughout the collecting period. These results indicate that under seasonally invariant conditions: (1) there was a considerable variation over the 10-month period in the production of BJC and other important venom activities such as phospholipase A2 and proteinases; (2) individual B. jararaca snakes produced a distinctive array of BJC isoforms; and (3) despite quantitative differences, there were essentially no qualitative differences in the production of BJC isoforms by individual snakes during the 10-month period.

Control of venom production and secretion by sympathetic outflow in the snake Bothrops jararaca.

Many studies have examined the morphological and biochemical changes in the secretory epithelium of snake venom glands after a bite or milking. However, the mechanisms of venom production and secretion are not yet well understood. The present study was undertaken to evaluate the role of the sympathetic nervous system in the control of venom production and secretion. Venom glands were obtained from Bothrops jararaca (Viperidae) snakes, either unmilked previously or milked 4, 7 or 15 days before they were killed. Levels of tyrosine-hydroxylase-like immunoreactivity were higher in venom glands collected 4 days after milking, coinciding with the maximal synthetic activity of the secretory cells. The only catecholamine detected by high-performance liquid chromatography was noradrenaline, indicating the presence of noradrenergic fibres in these glands. In reserpine-treated milked snakes, no venom could be collected, and electron microscopic analysis showed narrow rough endoplasmic reticulum cisternae, instead of wide cisternae, and less well-developed Golgi apparatus compared with milked untreated snakes, indicating impairment of protein synthesis and secretion. The administration of isoprenaline or phenylephrine (beta- and alpha-adrenoceptor agonists, respectively) to reserpine-treated milked snakes promoted the widening of the rough endoplasmic reticulum and restored venom production, but only phenylephrine restored the development of the Golgi apparatus and the formation of many secretory vesicles. These results provide the first evidence that the sympathetic nervous system plays an important role in venom production and secretion in the venom glands of Bothrops jararaca. Understanding the importance of noradrenergic stimulation in venom production may provide new insights for research into the treatment of snakebites.

Detection of calcium-binding proteins in venom and Duvernoy's glands of South American snakes and their secretions.

Calcium-binding proteins (CaBPs) have been described as involved in the stimulus-secretion coupling mechanisms in secretory glands. CaBPs were revealed with 45Ca, after electrophoresis in SDS-PAGE and transference to Zeta probe membranes, in Duvernoy's or venom gland homogenates from three families of South American snakes: Viperidae (Bothrops jararaca and Crotalus durissus terrificus); Elapidae (Micrurus corallinus), and Colubridae (Phylodrias patagoniensis and Oxyrhopus trigeminus). A band with an estimated molecular weight of 12 KDa was found in all glands studied. Bands with 17, 28, and 67 KDa were found in all glands, except in O. trigeminus Duvernoy's gland. A 18 KDa band was found in Viperidae and Elapidae venom glands, and a 88 KDa band was observed only in Viperidae venom gland homogenates. Some of these CaBPs were identified by Western blotting or by immunohistochemistry, as parvalbumin (12 KDa) and calbindin (28 KDa). When the secretion of these glands were analyzed, CaBPs were detected only in B. jararaca venom, with bands of 14, 35, 42, and 72 KDa. The profile of CaBPs was not modified at different phases of the secretory cycle of the glands, as well as after isoproterenol treatment.

Control of venom production and secretion by sympathetic outflow in the snake Bothrops jararaca

Many studies have examined the morphological and biochemical changes in the secretory epithelium of snake venom glands after a bite or milking. However, the mechanisms of venom production and secretion are not yet well understood. The present study was undertaken to evaluate the role of the sympathetic nervous system in the control of venom production and secretion. Venom glands were obtained from Bothrops jararaca (Viperidae) snakes, either unmilked previously or milked 4, 7 or 15 days before they were killed. Level of tyrosine-hydroxylase-like immunoreactivity were higher in venom glands collected 4 days after milking, coinciding with the maximal synthetic activity of the secretory cells. The only catecholamine detected by high-performance liquid chromatography was noradrenaline, indicating the presence of noradrenergic fibres in these glands. In reserpine-treated milked snakes, no venom could be collected, and electron microscopic analysis showed narrow rough endoplasmic reticulum cisternae, instead of wide cisternae, and less well-developed Golgi apparatus compared with milked untreated snakes, indicating impairment of protein synthesis and secretion. The administration of isoprenaline or phenylephrine (â- and á-adrenoceptor agonists, respectively) to reserpine-treated milked snakes promoted the widening of the rough endoplasmic reticulum and restored venom production, but only phenylephrine restored the development of the Golgi apparatus and the formation of many secretory vesicles. These results provide the first evidence that the sympathetic nervous system plays an important role in venom production and secretion in the venom glands of Bothrops jararaca. Understanding the importance of noradrenergic stimulation in venom production may provide new insights for research into the treatment of snakebites.

Alpha-1 adrenoceptor subtypes involved in noradrenaline-induced contraction of snake (Bothrops jararaca) isolated aorta

The effects of chloroethylclonidine (CEC) and calcium channel antagonists on noradrenaline-induced contractions of Bothrops jararaca aorta were investigated, in order to characterize the alpha-1 adrenoceptor subtypes present in this preparation. CEC (5 × 10−5or 10−4M) displaced to the right, in the same order of magnitude, the concentration-response curve of noradrenaline without affecting its maximum response. The residual response was blocked by prazosin (10−8 M) but not by idazoxan (10−5 M). Nifedipine (10−5 M) or diltiazem (10−5 M), in the absence of cocaine, did not have any effect on the concentration-response curve of noradrenaline; however, in the presence of cocaine, both the drugs were equipotent in displacing the curve, though diltiazem produced a non-parallel displacement. These results suggest the presence of two distinct alpha-1 adrenoceptor subtypes in Bothrops jararaca aorta: one CEC-sensitive (alpha-1B-like) and another CEC-insensitive, though the possibility of the presence of a single but different subtype cannot be excluded.

Effect of chymotrypsin on rat blood pressure.

1. Chymotrypsin (Cht) administration (14 mg/kg, i.v.) to rats always caused hypertension; hypotension preceded this effect in 64% of the observations (n = 11). 2. A 68% reduction of circulating kininogen but not of angiotensinogen was observed after Cht administration. 3. Cht effects were not affected by captopril, [Sar1-Leu8]-angiotensin II and alpha-adrenoceptor antagonists. In 70% of the observations (n = 10) hypotension was abolished by a mixture of histamine H1- and H2-antagonists. Therefore histamine release may explain hypotension. 4. Cht released in vitro from rat plasma, a substance producing hypertension in the rat and contraction of the guinea-pig ileum. Both effects were antagonized by [Sar1-Leu8]-angiotensin II. 5. In spite of this angiotensin release in vitro, the hypertensive component of the in vivo response to Cht seems to be due to some other substance.

Effects of catecholamines on the isolated aorta of the snake Bothrops jararaca

Effects of catecholamines in snakes have been examined using an aorta preparation isolated from Bothrops jararaca. Adrenaline, noradrenaline and isoprenaline produced dose-dependent contractions on this preparation. The relative potency was adrenaline > noradrenaline > isoprenaline. 2. Phentolamine displaced, to the right, the concentration-response curve of the three catecholamines tested, showing the presence of alpha-adrenoceptors in this preparation. 3. Isoprenaline has never produced a relaxation, even when the aorta was first contracted by BaCl2 and pretreated with phentolamine, indicating that beta-adrenoceptors are absent in this preparation. 4. In this Bothrops jararaca preparation, exclusively neuronal uptake was found, thus demonstrating that its existence was preserved during evolution.

Characterization of postjunctional alpha-adrenoceptors in the isolated aorta of the snake Bothrops jararaca

To characterize the alpha-adrenoceptors present in Bothrops jararaca aorta, selective alpha-adrenoceptor agonists and antagonists were used. The relative order of potency of the tested agonists was noradrenaline > phenylephrine > clonidine. Prazosin was more potent than phentolamine and yohimbine in antagonizing noradrenaline response, since the PA2 values were 9.91, 7.59 and 7.33, respectively. Yohimbine was also able to block the contraction produced by phenylephrine, an alpha-1 agonist. These results suggest the existence of an alpha-1 subtype of adrenoceptor in this preparation which, however, presents some different characteristics from those described for mammals.