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Intracellular limitations

N-terminal Cys >llbl Thioester derivatives None Covalent and irreversible Intracellular Limited specificity of labeling slow reaction [27]... [Pg.461]

Figure 7.3-1. Limitations of nonviral gene delivery formulations are shown. Limitations can be divided into extracellular limitations, such as (1) interaction with serum components, (2) particle-particle interaction, (3) clearance from target site, and (4) targeting, and intracellular limitations, such as (1) internalization, (2) endosomal escape, (3) vector unpackaging, and (4) nuclear internalization. Figure 7.3-1. Limitations of nonviral gene delivery formulations are shown. Limitations can be divided into extracellular limitations, such as (1) interaction with serum components, (2) particle-particle interaction, (3) clearance from target site, and (4) targeting, and intracellular limitations, such as (1) internalization, (2) endosomal escape, (3) vector unpackaging, and (4) nuclear internalization.
TABLE 7,3-4. Intracellular Limitations to Nonviral Gene Delivery... [Pg.1020]

Two mechanisms are operating alone or in concert to minimize the antibiotic concentration at the intracellular target site Downregulation of the expression of the pore proteins, also called porins, and upregulation of one or a set of several unspecific efflux pumps. However, the impact of these mechanisms on the resistance is low, since due to the essential function of porins for uptake of nutrients their reduction is limited and to avoid disturbances of membrane integrity due to extensive oveiproduction of mdr efflux pumps these are subjected a strict regulation. [Pg.105]

A problem with employment of ASON in a larger clinical setting is their poor uptake and inappropriate intracellular compartmentalization, e.g., sequestration in endosomal or lysosomal complexes. In addition, there is a need for a very careful selection of the ASON-mRNA pair sequences that would most efficiently hybridize. To date, several computer programs are used to predict the secondary and tertiary structures of the target mRNA and, in turn, which of the mRNA sequences are most accessible to the ASON. However, even with this sophisticated techniques, the choice of base-pairing partners still usually includes a component of empiricism. Despite these principal limitations, it has become clear that ASON can penetrate into cells and mediate their specific inhibitory effect of the protein synthesis in various circumstances. [Pg.186]

The antiinflammatory effects of statins likely result from their ability to inhibit the formation of mevalonic acid. Downstream products of this molecule include not only the end product, cholesterol, but also several isoprenoid intermediates that covalently modify ( pre-nylate ) certain key intracellular signaling molecules. Statin treatment reduces leukocyte adhesion, accumulation of macrophages, MMPs, tissue factor, and other proinflammatory mediators. By acting on the MHC class II transactivator (CIITA), statins also interfere with antigen presentation and subsequent T-cell activation. Statin treatment can also limit platelet activation in some assays as well. All these results support the concept that in addition to their favorable effect on the lipid profile, statins can also exert an array of antiinflammatory and immunomodulatory actions. [Pg.228]

The transporters for 5HT, noradrenaline and dopamine, biogenic monoamines, are genetically related, exist as single isoforms and are expressed on the surface of nerve cells, which use monoamines as (or convert them into) their cognate neurotransmitter. The single-isoform monoamine transporters fulfil all three fundamental functions (reuptake, limiting synaptic transmission, and control of the extracellular neurotransmitter concentration). Inactivation of DAT, NET, or SERT results in an increased extracellular lifetime and level of monoamine neurotransmitter, but decreased intracellular storage and evoked release (Fig. 3). [Pg.839]

Many bacterial polysaccharides contain phosphoric ester groups. There is a limited number of examples of monoesters. More common are phosphoric diesters, connecting an amino alcohol or an alditol to the polysaccharide chain. Another possibility is that oligosaccharide or oligosaccharide-alditol repeating units are connected to a polymer by phosphoric diester linkages. In addition to the intracellular teichoic acids, several bacteria, for example, different types of Streptococcus pneumoniae, elaborate extracellular polymers of this type. These polymers are generally discussed in connection with the bacterial polysaccharides. [Pg.314]

First, their opening during somato-dendritic action potentials provides the source of the increased intracellular [Ca +] required to open Ca +-activated K+ channels — BK channels, to accelerate spike repolarisation, and SK channels, to induce spike-train adaptation and limit repetitive firing. The BK channels are activated (primarily) following entry of Ca + through L-type channels the source of Ca + for SK channel activation varies with different neurons, and may be either through L-type or N-type channels. [Pg.45]

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Intracellular limitations toxicity

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