Tyrosine constitution

Loland, C. J., Norregaard, L., Litman, T., and Gether, U. (2002) Generation of an activating Zn2+ switch in the dopamine transporter mutation of an intracellular tyrosine constitutively alters the conformational equilibrium of the transport cycle. Proc. Natl. Acad. Sci. USA 99, 1683-1688. 

The dopamine system constitutes the cellular and biochemical network that is involved in the synthesis, release, and response to dopamine. In general, this involves cells that express significant levels of tyrosine hydroxylase (TH) and limited amounts of dopamine (3-hydioxylase [1]. Dopamine-responsive cells express receptors specifically activated by this neurotransmitter, which are known as dopamine Dl, D2, D3, D4, and D5 receptors [2, 3]. 

Originally discovered as DNA-binding proteins that mediate interferon signaling, recent data demonstrated that STAT1 can also exert constitutive functions in the nucleus, which do not require STAT activation with tyrosine phosphorylation. Cells lacking STAT1 are... 

Besides the cytokine receptors that lack intrinsic kinase activity but have associated JAK kinases, STAT proteins can be activated by a variety of G-protein coupled receptors and growth factor receptors with intrinsic tyrosine kinase activity (for example EGF, PDGF, CSF-1, and angiotensin receptor). Increasing evidence suggests a critical role for STAT family members in oncogenesis and aberrant cell proliferation. Constitutively activated STATs have been found in many transformed cell lines and a wide variety of human tumor entities. Numerous non-receptor tyrosine kinases and viral oncoproteins, such as v-Src, v-Abl, v-Sis, and v-Eyk, have been identified to induce DNA-binding activity of STAT proteins. 

Fitzgerald JW, HW Maca, FA Rose (1979) Physiological factors regulating tyrosine-sulphate sulphohydrolase activity in Comamonas terrigena occurrence of constitutive and inducible enzymes. J Gen Microbiol 111 407-415. 

The proportion of ALL in patients older than age 60 years constitutes between 16% and 31% of all adult leukemias. Treatment of adults largely has followed the conventional chemotherapeutic regimes used in childhood ALL. However, the intensification regimens common in childhood are not suitable for this population because of their associated toxic-ities in older patients. The adverse prognostic factor, the Philadelphia chromosome, occurs in 15% to 30% of adults and thus is more common in the over 60 age group.17 Based on the experience achieved in CML, the use of imatinib, a potent inhibitor of the Ph+-associated BCR-ABL tyrosine kinase, is becoming a common practice for these older adults. Results show that the combination of imatinib with conventional chemotherapy has improved remission rates compared with the use of conventional chemotherapy alone,... 

Dimerization allows the kinase activity of both intracellular chains to encounter target sequences on the other, linked receptor molecule. This enables the intermolecular cross-phosphorylation of several tyrosine residues (Figure 8.2). The phosphorylated dimer then constitutes the active receptor. It possesses an array of phosphotyrosines that enable it to bind proteins to form receptor signaling complexes. Additionally, the dimerized and phosphorylated receptor has the potential of phospho-rylating its targets. 

One of the most important applications of PPO, although rarely reported, is its role in synthetic processes, such as the biosynthesis of betalains. Several researchers reported the hydroxylation of tyrosine to dopa, which can then be oxidized to dopaquinone, through a PPO from Portulaca grandiflora and from Beta vulgaris. Thus, a dioxygenase activity complements the constitutive PPO activity and the initiation of this dioxygenase... 

Protein tyrosine residues constitute key targets for peroxynitrite-mediated nitrations. Attack of various free radicals (ONOO-, N02 ) upon tyrosine generates 3-nitrotyrosine, which can be measured immunologically or by GC/MS or HPLC techniques. The detection of 3-nitrotyrosine was considered a biomarker of peroxynitrite action in vivo. Similarly, attack of HOC1 and HOBr on tyrosine generates chlorotyro-sine and bromotyrosine, respectively, both of which are measured most accurately by GC-MS. 

The answers are 327-a, 328-c 329-d. (Hardman, pp 120, 250, 582-583.) Epinephrine is made from tyrosine in a series of steps through L-dopa, dopamine, NE, and finally epinephrine. The conversion of tyrosine to dopa by tyrosine hydroxylase is the rate-limiting step in this pathway. Epinephrine constitutes about 80% of the catecholamines in the adrenal medulla. The enzyme that synthesizes epinephrine from NE is also found in certain areas of the CNS. 

Interestingly, we have recently identified a mutation of a tyrosine in the third intracellular loop of the hDAT that causes a major alteration in the conformational equilibrium of the transport cycle, and thus as such is comparable to mutants on G protein-coupled receptors causing constitutive isomerization of the receptor to the active state (66). Most importantly, this conclusion is based on the observation that mutation of the tyrosine completely reverts the effect of Zn2+ at the endogenous Zn2+ binding site in the hDAT (50,51) from potent inhibition of transport to potent stimulation of transport (Fig. 6). In the absence of Zn2+, transport capacity is reduced to less than 1% of that observed for the wild-type, however, the presence of Zn2+ in only micromolar concentrations causes a close to 30-fold increase in uptake (66). Moreover, it is found that the apparent affinities for cocaine and several other inhibitors are substantially decreased, whereas the apparent affinities for substrates are markedly increased (66). Notably, the decrease in apparent cocaine affinity was around 150-fold and thus to date the most dramatic alteration in cocaine affinity reported upon mutation of a single residue in the monoamine transporters (66). 

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