Consideraciones sobre la formación basada en competencias y el enfoque Una Salud / Considerations on competency-based training and the One Health approach

Resumen El enfoque Una Salud requiere de una estrecha relación entre los profesionales veterinarios con otros actores y factores del medio donde desarrollan sus actividades. Este trabajo aborda los aspectos que deberían considerarse al incluir los dominios de competencias del enfoque Una salud en el contexto de la formación veterinaria. Se tratan rasgos de los diseños curriculares y analizan posturas en torno a la formación basada en competencias, para proponer la opción del modelo sistémico complejo. Para que los veterinarios logren incrementar su desempeño efectivo e impactar positivamente en sus territorios laborales, es necesario fortalecer su pensamiento sistémico sobre la interdependencia de la salud humana, animal y ambiental, así como su capacidad de moverse en diferentes entornos sociales, políticos, legales y culturales. Los profesionales de la medicina veterinaria deben ser competentes para diseñar, gestionar y evaluar las interacciones entre los seres humanos, los animales y su medio y conformar equipos multidisciplinarios. Las estrategias educativas para mejorar la comprensión de los estudiantes de los determinantes sociológicos y ecológicos de la salud, así como sus responsabilidades profesionales, no deberían ser un agregado a planes de estudio por demás disciplinares y fragmentados.

Abstract The One health approach requires a close relationship between veterinary professionals and other actors and factors in the environment where they carry out their activities. This paper addresses the aspects that should be considered when including the domains of the One Health approach competencies in the context of a veterinary study program. Features of the curricular designs are discussed and positions on competency-based training are analyzed in order to propose the option of the complex-systemic model. In order for veterinarians to be able to enhance their effective performance and positively impact on their working environments, it is necessary to strengthen their systemic thinking about the interdependence of human, animal and environmental health, as well as their ability to move in different social, political, legal and cultural environments. Veterinary medicine professionals must be competent to design, manage and evaluate interactions between humans, animals and their environment and to be part of multidisciplinary teams. Educational strategies to enhance students' understanding of the sociological and ecological determinants of health, as well as their professional responsibilities, should not be an add-on to too fragmented and disciplinary curricula.

Honey extracts inhibit PTP1B, upregulate insulin receptor expression, and enhance glucose uptake in human HepG2 cells.

Honey is a food known for its medical properties. In this work, we have studied the impact of different types of honey on insulin signalling pathway. We found that honey extracts inhibit the enzyme PTP1B, one of the main negative regulators of insulin receptor signalling. HPLC-MS analysis allowed us to confirm the presence of several natural PTP1B inhibitors in the honey extracts analysed. Statistical analysis methods show a correlation between specific 1H-NMR resonance frequencies/HPLC peaks and the inhibitory power of the samples. This finding will allow the prediction of the biological properties of honey samples applying relative simple analytical methods. Finally, we demonstrated that the treatment of HepG2 cells with honey extracts enhances the expression of insulin receptor, and stimulates glucose uptake. For the first time, our results demonstrate that bioactive components of honey could improve glycaemic control by both inhibiting PTP1B and stimulating the expression of insulin receptor in liver cells.

Contribution of volcanic ashes to the regional geochemical balance: the 2008 eruption of Chaitén volcano, Southern Chile.

The environmental geochemical behaviour of the rhyolitic ashes from the 2008 eruption of Chaitén volcano, Southern Chile, has been studied. After the bulk characterisation, the potential contribution to the regional geochemical fluxes was examined using: i) single batch leaching tests to provide a rapid screening of the implied major and trace elements; and ii) column experiments to evaluate the temporal mobility of leached elements. The environmental concerns of these ashes are related to the fine grained component present in each sample (independent of distance from the source), in particular the presence of cristobalite, and the geochemical hazards posed by ash-water interaction. Leaching experiments show the fast dissolution of surface salts and aerosols, which dominate over glass dissolution during the first steps of the ash-water interaction. Chaitén ashes could transfer to the environment more than 1×10(10)g or 10,000 metric tonnes (mt) of Cl, S, Ca, Na, Si, and K; between 1000 and 10,000 mt of F, Mg, and Al; between 100 and 1000 mt of As, Pb, P, Fe, Sr, Zn, Mn, and Br; between 10 and 100 mt of Ba, Li, Ti, Ni, Nb, Cu, Rb, Zr, V, Mo, Co, and Sc; and less than 10 mt of Cr, Sb, Ce, Ga, Cs, and Y. These results show the fertilising potential of the ashes (e.g., providing Ca and Fe) but also the input of potentially toxic trace elements (e.g., F and As) in the regional geochemical mass balance. The Chaitén results evidence lower potentials for poisoning and fertilising than low silica ashes due to the lower contents released of practically all elements.

Validation of the nerve axon reflex for the assessment of small nerve fibre dysfunction.

OBJECTIVE: To validate nerve-axon reflex-related vasodilatation as an objective method to evaluate C-nociceptive fibre function by comparing it with the standard diagnostic criteria. METHODS: Neuropathy was evaluated in 41 patients with diabetes (26 men and 15 women) without peripheral vascular disease by assessing the Neuropathy Symptom Score, the Neuropathy Disability Score (NDS), the vibration perception threshold (VPT), the heat detection threshold (HDT), nerve conduction parameters and standard cardiovascular tests. The neurovascular response to 1% acetylcholine (Ach) iontophoresis was measured at the forearm and at both feet by laser flowmetry. An age-matched and sex-matched control group of 10 healthy people was also included. RESULTS: Significant correlations were observed between the neurovascular response at the foot and HDT (r(s) = -0.658; p<0.0001), NDS (r(s) = -0.665; p<0.0001), VPT (r(s) = -0.548; p = 0.0005), tibial nerve conduction velocity (r(s) = 0.631; p = 0.0002), sural nerve amplitude (r(s) = 0.581; p = 0.0002) and autonomic function tests. According to the NDS, in patients with diabetes who had mild, moderate or severe neuropathy, a significantly lower neurovascular response was seen at the foot than in patients without neuropathy and controls. A neurovascular response <50% was found to be highly sensitive (90%), with a good specificity (74%), in identifying patients with diabetic neuropathy. CONCLUSION: Small-fibre dysfunction can be diagnosed reliably with neurovascular response assessment. This response is already reduced in the early stages of peripheral neuropathy, supporting the hypothesis that small-fibre impairment is an early event in the natural history of diabetic neuropathy.

Transcutaneous oxygen tension monitoring after successful revascularization in diabetic patients with ischaemic foot ulcers.

OBJECTIVE: To monitor transcutaneous oxygen tension (TcPO2) after percutaneous transluminal angioplasty (PTA) in diabetic patients with ischaemic foot ulcers. RESEARCH DESIGN AND METHODS: Twenty-three diabetic patients with ischaemic foot ulcers who underwent successful revascularization by PTA (SR group) were retrospectively selected. Twenty diabetic patients who underwent unsuccessful revascularization (UR group) were also included. Transcutaneous oxygen tension was measured at the dorsum of the foot before and 1 (+/- 1), 7 (+/- 1), 14 (+/- 1), 21 (+/- 1) and 28 (+/- 1) days after the surgical procedure. RESULTS: After PTA, TcPO2 progressively improved in the SR group, reaching its peak 4 weeks after angioplasty. A concomitant decrease of cutaneous carbon dioxide tension (TcPCO2) was also observed immediately after PTA which reached the lowest levels 3 weeks later. In the UR group, TcPO2 showed a slight improvement immediately after PTA but remained stable throughout the observation, while TcPCO2 levels did not change. Finally, the percentage of SR patients with a TcPO2 > or = 30 mmHg was 38.5% 1 week after PTA, while it increased to 75% 3 weeks later. CONCLUSION: Transcutaneous oxygen tension monitoring showed that after successful revascularization it takes 3-4 weeks for cutaneous oxygenation to improve and reach the optimal levels for wound healing. Transcutaneous carbon dioxide tension monitoring may be more useful to identify the negative outcome of a revascularization procedure. Our findings suggest that, when the surgical approach can be delayed, the best timing to perform a more aggressive debridement or minor amputations is 3-4 weeks after successful revascularization.

Insulin inhibits platelet-derived growth factor-induced cell proliferation.

Cellular behavior can be considered to be the result of a very complex spatial and temporal integration of intracellular and extracellular signals. These signals arise from serum-soluble factors as well as from cell-substrate or cell-cell interactions. The current approach in mitogenesis studies is generally to analyze the effect of a single growth factor on serum-starved cells. In this context, a metabolic hormone such as insulin is found to be a mitogenic agent in many cellular types. In the present study, we have considered the effect of insulin stimulation in platelet-derived growth factor (PDGF)-activated NIH-3T3 and C2C12 cells. Our results show that insulin is able to inhibit strongly both NIH-3T3 and C2C12 cell growth induced by PDGF, one of the most powerful mitotic agents for these cell types. This inhibitory effect of insulin is due primarily to a premature down-regulation of the PDGF receptor. Thus, when NIH-3T3 or C2C12 cells are stimulated with both PDGF and insulin, we observe a decrease in PDGF receptor phosphorylation with respect to cells treated with PDGF alone. In particular, we find that costimulation with insulin leads to a reduced production of H2O2 with respect to cell stimulation with PDGF alone. The relative low concentration of H2O2 in PDGF/insulin-costimulated cell leads to a limited down-regulation of protein tyrosine phosphatases, and, consequently, to a reduced PDGF receptor phosphorylation efficiency. The latter is very likely to be responsible for the insulin-dependent inhibition of PDGF-receptor mitogenic signaling.

Role of C-nociceptive fibers in the nerve axon reflex-related vasodilation in diabetes.

OBJECTIVE: To evaluate the role of the C-nociceptive nerve fibers in nerve axon reflex-related vasodilation. METHODS: Skin vascular reactivity, in response to iontophoresis of acetylcholine and sodium nitroprusside, was evaluated at both the forearm and the foot levels in 13 diabetic neuropathic (DN),11 nonneuropathic (D), and 9 healthy control (C) subjects. The total and nerve axon reflex-related vasodilation were measured by two single-point laser probes. A topical anesthetic was applied on the contralateral forearm and foot, and all the measurements were repeated. RESULTS: Dermal anesthesia resulted in a reduction of the nerve axon reflex-related vasodilation at the forearm in all three groups (C 70.7 +/- 12%, D 59.7 +/- 7%, and DN 73.5 +/- 14%; percentage of reduction over preanesthesia response, mean +/- SEM; p < 0.001) and at the foot in the two nonneuropathic groups (C 74 +/- 10% and D 68.9 +/- 9%; p < 0.001 versus before anesthesia). This reduction was absent at the foot of the neuropathic patients (DN -4 +/- 21%; p = NS versus before anesthesia). A correlation was found between the nerve axon reflex-related response and measurements of nerve function (neuropathy disability score, r = -0.425, p < 0.017; vibration perception threshold, r = -0.527, p < 0.002; Semmes-Weinstein monofilament perception, r = -0.619, p < 0.001). CONCLUSION: The nerve axon reflex-related vasodilation is directly related to the function of the C-nociceptive fibers and is significantly associated with other nerve function measurements. As this is an objective measurement, it has the potential to be used as an alternative to currently employed techniques to evaluate small-fiber function.

Some protein tyrosine phosphatases target in part to lipid rafts and interact with caveolin-1.

A profile-based search of the SWISS-PROT database reveals that most protein tyrosine phosphatases (PTPs) contain at least one caveolin-1-binding motif. To ascertain if the presence of caveolin-binding motif(s) in PTPs corresponds to their actual localization in caveolin-1-enriched membrane fractions, we performed subcellular fractionating experiments. We found that all tested PTPs (PTP1B, PTP1C, SHPTP2, PTEN, and LAR) are actually localized in caveolin-enriched membrane fractions, despite their distribution in other subcellular sites, too. More than 1/2 of LAR and about 1/4 of SHPTP2 and PTP-1C are localized in caveolin-enriched membrane fractions whereas, in these fractions, PTP-1B and PTEN are poorly concentrated. Co-immunoprecipitation experiments with antibodies specific for each tested PTP demonstrated that all five phosphatases form molecular complexes with caveolin-1 in vivo. Collectively, our findings propose that particular PTPs could perform some of their cellular actions or are regulated by recruitment into caveolin-enriched membrane fractions.

Pattern of abnormal tangential forces in the diabetic neuropathic foot.

OBJECTIVES: The role of tangential stress in neuropathic foot ulceration is yet unknown. The aim of this study was to investigate the tangential forces developed during gait by the whole foot and by selected subareas of it, namely the heel, the metatarsals and the hallux. METHODS: 61 diabetic patients have been evaluated: 27 without neuropathy, 19 with neuropathy and 15 with previous neuropathic ulcer. The patients were compared with 21 healthy volunteers. A piezo-dynamometric platform was used to measure the three components of the ground reaction force under the total foot and the selected subareas. RESULTS: A significant reduction was observed for the forward peak and the backward peak of the anteroposterior ground reaction force component measured under the whole foot. Patients with previous neuropathic ulcer showed a significant increase of the mediolateral stress under the metatarsals. CONCLUSIONS: Tangential stress is altered in diabetic neuropathic patients; the increased mediolateral component suggests that tangential stress could have a role in the high risk of recurrence observed in patients with previous ulceration. RELEVANCE: To assess the effectiveness of a non-invasive methodology for the estimation and the monitoring of significant alterations of the tangential stress with the increase of neuropathy.

Tyrosine-phosphorylated caveolin is a physiological substrate of the low M(r) protein-tyrosine phosphatase.

Low M(r) phosphotyrosine-protein phosphatase is involved in the regulation of several tyrosine kinase growth factor receptors. The best characterized action of this enzyme is on the signaling pathways activated by platelet-derived growth factor, where it plays multiple roles. In this study we identify tyrosine-phosphorylated caveolin as a new potential substrate for low M(r) phosphotyrosine-protein phosphatase. Caveolin is tyrosine-phosphorylated in vivo by Src kinases, recruits into caveolae, and hence regulates the activities of several proteins involved in cellular signaling cascades. Our results demonstrate that caveolin and low M(r) phosphotyrosine-protein phosphatase coimmunoprecipitate from cell lysates, and that a fraction of the enzyme localizes in caveolae. Furthermore, in a cell line sensitive to insulin, the overexpression of the C12S dominant negative mutant of low M(r) phosphotyrosine-protein phosphatase (a form lacking activity but able to bind substrates) causes the enhancement of tyrosine-phosphorylated caveolin. Insulin stimulation of these cells induces a strong increase of caveolin phosphorylation. The localization of low M(r) phosphotyrosine-protein phosphatase in caveolae, the in vivo interaction between this enzyme and caveolin, and the capacity of this enzyme to rapidly dephosphorylate phosphocaveolin, all indicate that tyrosine-phosphorylated caveolin is a relevant substrate for this phosphatase.

Hyperinsulinaemia in offspring of Type 2 diabetic patients: impaired response of carbohydrate metabolism, but preserved cardiovascular response.

AIMS: To investigate the effects of endogenous insulin on haemodynamics in nine offspring of Type 2 diabetic patients (P), compared with 18 subjects without family history of diabetes (C), all with normal glucose tolerance. METHODS: All subjects underwent a 180-min oral glucose tolerance test with continuous blood pressure and ECG recording. Low-to-high frequency ratio (LF/HF), an index of the sympatho-vagal balance, was calculated by heart rate spectral analysis. RESULTS: At baseline, LF/HF correlated with fasting plasma insulin (r = 0.44, P < 0.03) and with insulin/glucose ratio (r = 0.46, P < 0.03). Plasma insulin, basally similar in the two groups, was significantly increased in P (342 +/- 34.2) when compared to C (177.6 +/- 25.2 pmol/l), P < 0.005 from time 30min onward. Blood glucose, also similar at baseline, remained not significantly different in P (5.74 +/- 0.25) vs. C (5.08 +/- 0.27 mmol/l), throughout the study. Diastolic blood pressure significantly decreased in P, but not in C during the first hour of the study. Finally, LF/HF ratio significantly increased in P (2.5 +/- 0.4 vs. C, 1.7 +/- 0.2) during the first hour. CONCLUSIONS: In conclusion, the offspring of Type 2 diabetic patients with normal glucose tolerance display an increased insulin secretion; however, they are not resistant to the haemodynamic effects of insulin, as suggested by the reduction of diastolic blood pressure. This, in turn, may determine a chronic sympathetic activation, which could be involved in the pathogenesis of Type 2 diabetes mellitus.

Thiolation of low-Mr phosphotyrosine protein phosphatase by thiol-disulfides.

Thiol-disulfides cause a time- and a concentration-dependent inactivation of the low-M(r) phosphotyrosine protein phosphatase (PTP). We demonstrated that six of eight enzyme cysteines have similar reactivity against 5,5'-dithiobis(nitrobenzoic acid): Their thiolation is accompanied by enzyme inactivation. The inactivation of the enzyme by glutathione disulfide also is accompanied by the thiolation of six cysteine residues. Inorganic phosphate, a competitive enzyme inhibitor, protects the enzyme from inactivation, indicating that the inactivation results from thiolation of the essential active-site cysteine of the enzyme. The inactivation is reversed by dithiothreitol. Although all PTPs have three-dimensional active-site structures very similar to each other and also have identical reaction mechanisms, the thiol group contained in the active site of low-M(r) PTP seems to have lower reactivity than that of other PTPs in the protein thiolation reaction.

The inactivation mechanism of low molecular weight phosphotyrosine-protein phosphatase by H2O2.

Low molecular weight phosphotyrosine-protein phosphatase (LMW-PTP) shares no general sequence homology with other PTPs, although it has an active site sequence motif CXXXXXR and a reaction mechanism identical to those of all PTPs. The main function of this enzyme is the down-regulation of platelet-derived growth factor and insulin receptors. Both human LMW-PTP isoenzymes are inactivated by H2O2. The enzymes are protected from inactivation by Pi, a competitive inhibitor, suggesting that the H2O2 reaction is directed to active site. Analysis of free thiols performed on the inactivated enzymes demonstrates that only two out of the eight LMW-PTP cysteines are modified. Time-course high performance liquid chromatography-electrospray mass spectrometry, together with specific radiolabeling and tryptic fingerprint analyses, enables us to demonstrate that H2O2 causes the oxidation of Cys-12 and Cys-17 to form a disulfide bond. Because both residues are localized into the active site region, this modification inactivates the enzyme. Fluorescence spectroscopy experiments suggest that the fold of the enzyme is modified during oxidation by H2O2. Because a physiological concentration of H2O2 produces enzyme inactivation and considering that the activity is restored by reduction with low molecular weight thiols, we suggest that oxidative stress conditions and other processes producing hydrogen peroxide regulate the LMW-PTP in the cell.

The amino acid sequences of two acylphosphatase isoforms from fish muscle (Lamna nasus).

Two acylphosphatase isoenzymes have been purified from Lamna nasus muscle, and their complete amino acid sequences have been determined. The former (E1) consists of 99 amino acid residues, while the latter (E2) consists of 102 residues. Both are acetylated at their N termini. E1 has the FFRK active site motif characteristic of all common-type acylphosphatase isoenzymes, whereas E2 contains the CFRM active site motif characteristic of all muscle-type acylphosphatase isoenzymes. They have quite similar kinetic properties. The comparison of sequences of fish E1 and E2 isoenzymes with other known mammalian and bird acylphosphatases reveals that the E2 isoenzyme has an N terminus tail, four residues long, similar to those previously found in all known bird species muscle-type isoenzymes. Among organ-common-type acylphosphatases about 50% of residues are completely conserved, whereas about 60% of muscle-type acylphosphatase residues are completely conserved, indicating that the latter type of isoenzyme has a slower evolutionary rate than the former. The sequences of E1 and E2 acylphosphatases from L. nasus represent the first primary structures of this kind of enzyme determined among fish species.

[Clinical reflexions on a case of primary achalasia of the esophagus diagnosed late]. / Riflessioni cliniche su di un caso di acalasia primitiva dell'esofago tardivamente diagnosticata.

We describe an unusual case of achalasia. The patient, a 33-year-old woman, presented with a clinical history of esophageal disease verified by gastroscopy. The diagnosis of hysterical anorexia that had been made some years previously did not correspond with the nosological classifications (DSM III-R, DSM IV). This case underscores the importance of the correct use of clinical methodology, particularly when conclusive diagnosis is essential for successful treatment.

Identity of zinc ion-dependent acid phosphatase from bovine brain and myo-inositol 1-phosphatase.

A 62 kDa Zn(2+)-dependent acid phosphatase has been purified from bovine brain. The protein was carboxymethylated and then cleaved by endoproteinase Glu-C, trypsin and CNBr. Several fragments were subjected to structural analysis either by using mass spectrometry or automated peptide sequencing. The four sequenced peptides were compared with the known protein sequences contained in the EMBL Data Bank. All four peptide sequences were identical to the corresponding amino-acid sequences present in myo-inositol 1-phosphatase from bovine brain. Furthermore we found that the amino-acid composition of Zn(2+)-dependent acid phosphatase purified in our laboratory is very similar to that of myo-inositol 1-phosphatase, and that several peptide fragments have molecular weights (measured by mass spectrometry techniques) identical to those expected for cleavage-fragments originated from the authentic myo-inositol 1-phosphatase. This is one of the key enzymes in the receptor-stimulated inositol phospholipid metabolism and it has been considered as the probable target of Li+ ion during LiCl therapy in manic-depressive patients. The comparison of the Zn(2+)-dependent acid phosphatase and the Mg(2+)-dependent myo-inositol-1-phosphatase activities, measured at different purification steps, shows that the ratio between the two activities was remarkably constant during enzyme purification. We also demonstrated that in the presence of Mg2+ this enzyme efficiently catalyses the hydrolysis of myo-inositol 1-phosphate, and that the Li+ ion inhibits this activity. Furthermore, the thermal treatment of the enzyme causes a time-dependent parallel decrease of both Zn-dependent p-nitrophenyl phosphatase (assayed at pH 5.5) and Mg(2+)-dependent myo-inositol-1-phosphatase (assayed at pH 8.0) activities, suggesting the hypothesis that the same protein possesses both these activities.

In vivo inactivation of phosphotyrosine protein phosphatases by nitric oxide.

The effect of NO on phosphotyrosine protein phosphatases (PTPases) has been investigated in vivo. NO production is induced in interferon-gamma and lipopolysaccharide stimulated RAW-264.7 macrophages as indicated by the increase of NO2- in the medium. Our results demonstrate an inhibition of p-nitrophenylphosphatase activity as a consequence of macrophages activation. Under the described experimental conditions, most of the hydrolysis of p-nitrophenylphosphate can be ascribed to the action of cellular PTPases. The presence of NG-mono-methyl-L-arginine, a specific inhibitor of NO synthase decreases the inactivation rate of both membrane-bound and soluble PTPases. This evidence further confirms the ability of NO to inactivate PTPases and suggests a possible role of NO in the regulation of cellular processes involving this class of phosphatases.

Kinetic studies on rat liver low M(r) phosphotyrosine protein phosphatases. The activation mechanism of the isoenzyme AcP2 by cGMP.

The reaction mechanisms of p-nitrophenyl phosphate hydrolysis catalyzed by two rat liver isoenzymes of the low M(r) phosphotyrosine protein phosphatase (AcP1 and AcP2) were compared. Furthermore, the effect of some heterocyclic compounds on their activities were tested. Cyclic GMP and guanosine causes a particularly high activation of the isoenzyme AcP2, whereas its effect on AcP1 is very poor. A study on the mechanism of cyclic GMP activation was carried out. The results suggest that cyclic GMP activates the AcP2 isoenzyme by increasing the rate of the step that leads to the hydrolysis of the covalent enzyme-substrate phosphorylated complex formed during the catalytic process. The physiological significance of cyclic GMP activation of only one of the two isoenzymes (AcP2) remains uncertain.

Nitric oxide causes inactivation of the low molecular weight phosphotyrosine protein phosphatase.

The low M(r) phosphotyrosine protein phosphatase (PTPase) and Yersinia enterocolitica PTPase are inactivated by nitric oxide-generating compounds. Inorganic phosphate, a competitive inhibitor, protects the enzymes from inactivation, suggesting that the action of NO is directed to the active sites. Low M(r) PTPase from bovine liver lost two out of eight thiol groups present in the molecule during the inactivation with sodium nitroprusside and with other NO-producing compounds. The mass spectrometric analyses of tryptic fragments of the enzyme, performed after chemical modification of the NO-unreacted thiol groups, demonstrated that NO caused the oxidation of Cys-12 and Cys-17 to form an S-S bond. A similar reaction was described previously for the reaction of NO with N-methyl-D-aspartate receptor. The NO-inactivated low M(r) PTPase was reactivated by treating the inactive enzyme with thiol-containing reagents. Since all members of the PTPase family have the same reaction mechanism and possess a conserved active site motif that contains an essential cysteine residue, the findings on low M(r) and Yersinia PTPases are potentially interesting for all PTPases, an enzyme class that is involved in a number of important biological processes.

Porcine liver low M(r) phosphotyrosine protein phosphatase: the amino acid sequence.

Porcine low M(r) phosphotyrosine protein phosphatase has been purified and the complete amino acid sequence has been determined. Both enzymic and chemical cleavages are used to obtain protein fragments. FAB mass spectrometry and enzymic subdigestion followed by Edman degradation have been used to determine the structure of the NH2-terminal acylated tryptic peptide. The enzyme consists of 157 amino acid residues, is acetylated at the NH2-terminus, and has arginine as COOH-terminal residue. It shows kinetic parameters very similar to other known low M(r) PTPases. This PTPase is strongly inhibited by pyridoxal 5'-phosphate (Ki = 21 microM) like the low M(r) PTPases from bovine liver, rat liver (AcP2 isoenzyme), and human erythrocyte (Bslow isoenzyme). The comparison of the 40-73 sequence with the corresponding sequence of other low M(r) PTPases from different sources demonstrates that this isoform is highly homologous to the isoforms mentioned above, and shows a lower homology degree with respect to rat AcP1 and human Bfast isoforms. A classification of low M(r) PTPase isoforms based on the type-specific sequence and on the sensitivity to pyridoxal 5'-phosphate inhibition has been proposed.