Bioequivalence of two subcutaneous pharmaceutical products of interferon beta la.

Blastoferon, in the following referred to as the test product, is a pharmaceutical product of interferon beta la (CAS 220581-49-7) currently marketed as a biosimilar to the innovator Interferon beta la product (referred to as the reference product). Pharmacokinetics and pharmacodynamIcs assays are critically relevant to demonstrate similarity between biopharmaceuticals. The aims of the present study were to investigate the bioavailability (BA) of the test product (either absolute or relative to the innovator product) and to compare the extent of increase of neopterin concentration following administration of either product.

High level expression of bioactive recombinant human growth hormone in the milk of a cloned transgenic cow.

Transgenic farm animals have been proposed as an alternative to current bioreactors for large scale production of biopharmaceuticals. However, the efficiency of both methods in the production of the same protein has not yet been established. Here we report the production of recombinant human growth hormone (hGH) in the milk of a cloned transgenic cow at levels of up to 5 g l(-1).

Thyrotropin-releasing hormone hyperactivity in the preoptic area of spontaneously hypertensive rats.

Thyrotropin-releasing hormone (TRH) plays an important role in central cardiovascular regulation through the activation of different neurotransmitter systems at distinct extrahypothalamic sites. To study possible alterations in the TRH system in the hypertensive state, we measured TRH concentration in cerebrospinal fluid and TRH content of the preoptic area in spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY) by radioimmunoassay. In addition, we also measured the density of the TRH receptor in this area by a rapid filtration technique using [3H]methyl-TRH.

Interaction between thyrotrophin-releasing hormone and the muscarinic cholinergic system in rat brain.

TRH increases the pressor response to acetylcholine through an increment in muscarinic receptors. As chronic atropinization produces a similar effect, we hypothesized that both phenomena may be related. The effect of chronic atropine treatment on the TRH content of several brain areas in Wistar rats was studied.

The cholinergic system participates in thyrotropin-releasing hormone (TRH) regulation.

The effect of chronic atropine treatment was studied on thyrotropin releasing hormone (TRH) content of several brain areas in Wistar rats. Atropine produced TRH increases in the septal area, preoptic area and the hypophysis; this was observed when rats were killed immediately after the last dose, while a decrease was observed only in the hypophysis 48 h after the last atropine dose. TRH concentration in cerebrospinal fluid rose significantly after atropine withdrawal with respect to controls.