IN VITRO IN VIVO METHODS AND PHARMACOKINETIC MODELS FOR SUBCUTANEOUSLY ADMINISTERED PEPTIDE DRUG PRODUCTS

Somani, Amit

31 July 2012

Over the last several years, injectable drugs have been a growing area for the treatment of various therapeutic conditions and they are projected to comprise an even larger proportion among the drugs that will be available in the years to come. The injectable drugs are administered by various routes such as intramuscular (IM), intravenous (IV), subcutaneous (SC) and others, however, the majority of these drugs are administered subcutaneously. Even though subcutaneous delivery has been utilized for a number of years, very little is known about the processes governing the absorption of macromolecules from the interstitial space; and the resulting impact of these processes on the bioavailability (BA) and pharmacokinetic (PK) profiles. Also, there is no established In vitro - In vivo correlation (IVIVC) for subcutaneously administered immediate release (IR) peptide based drugs in a biorelevant manner. The contribution of IVIVC in drug development of orally administered drugs is very well known. For oral drugs, the in vivo process of drug absorption is often rate limited by the rate at which drug dissolves in the gastrointestinal tract. This can be simulated by measuring the rate of dissolution in an in vitro apparatus, which can be correlated with the in vivo absorption rate to produce an IVIVC. This research program involved efforts to develop biorelevant IVIVC methods and model for subcutaneously administered peptide based drugs. The in vivo component of this Program involves the use of clinical data from a bioequivalence (BE) study of Iplex™ [(IGF-I (Insulin like growth factor-I)/IGFBP-3 (Insulin like growth factor binding protein-3)], administered subcutaneously, that was conducted at the Center for Drug Studies (CDS), VCU School of Pharmacy in the year 2005 (Barr et. al., 2005). The PK parameters for Increlex™ (IGF-I) are calculated from the clinical data obtained from another study (Rabkin et. al., 1996). Literature research and molecular modeling research formed the basis of our hypotheses that unbound and bound IGF-I are absorbed from the blood capillaries and lymphatic capillaries respectively and that simulation of these physiologic variables is possible with the use of the modified Hanson Microette® device. The Hanson Microette® device is a vertical diffusion cell system that has been modified to simulate the pores in the capillaries with the use of a synthetic membrane. The flow and composition of circulatory fluid was simulated by the use of modified Hanks balanced salts solution (HBSS). A validated RP-HPLC (reversed-phase high performance liquid chromatography) method has been used for the analysis of IGF-1/IGFBP-3 in the in vitro samples. The in vitro permeation/release results gave the in vitro component to conduct IVIVC analysis. The General Electric (GE) healthcare sourced polycarbonate nucleopore track etched membranes were the only set of membranes that resulted in significant permeation in the in vitro experiments. IVIVC results demonstrated high inter and intra-membrane variability for the membranes (available from today’s technology) that were used to simulate the in vivo membrane characteristics. Currently, there are no validated biorelevant IVIVC methods for SC formulations. The methods described here are the basis for future in vitro method development that will be of significant value for (a) predicting the in vivo performance of SC formulations based on the in vitro data, and (b) provide a reproducible in vitro method as the basis of developing an IVIVC for other subcutaneously administered drugs. This will provide an important tool for both development and regulation of this growing class of drugs.

Pharmacokinetics

In vitro In vivo methods

Peptide based drug products

subcutaneous absorption

injectable drugs

lymphatic absorption

molecular modeling of IGF-1

IGFBP-3

Medicine and Health Sciences

Pharmacy and Pharmaceutical Sciences

Využití rekombinantních virů vakcinie produkujících IGFBP3 pro terapii nádorů / IGFBP3 expressing rekombinant vaccinia virus used for tumor therapy

Musil, Jan

January 2010

IGFBP-3 expressing rekombinant vaccinia viruses used for tumor therapy Insulin-like growth factor-binding protein-3 (IGFBP-3) is a major regulator of endocrine effects of IGF and is capable to suppress the growth of variety of cancer. Several studies have shown that IGFBP-3 can induce the apoptosis of cancer cells via IGF-dependent and IGF-independent mechanisms. In our study, we have constructed recombinant vaccinia viruses (VACV) expressing IGFBP-3 under the control of the early H5 and synthetic early/late (E/L) promoter to investigate the potential effect on cancer growth in our cervical cancer model. We have shown that the expression of IGFBP-3 alone had no effect on tumor growth. On the other hand, the co-expression of IGFBP-3 enhanced the anti-cancer effect of immunization with the fusion protein SigE7LAMP, which gave rise to the anti-cancer immunity directed against HPV16 induced tumors. We have shown that the double-recombinant P13-SigE7LAMP-H5-IGFBP-3 can enhance the protective immune responses against MK16/ABC induced tumors. Furthermore, we have show that both double-recombinant viruses P13-SigE7LAMP-H5- IGFBP-3 and P13-SigE7LAMP-E/L-IGFBP-3 can increase the anti-cancer effect of SigE7LAMP expression in the therapy of TC-1 induced tumors. Key words: IGFBP-3, IGF, VACV, HPV16, E7 oncoprotein,...

Die Wirkung von Valproat auf die Konochenmetastasenzellen (VCaP) des Prostatakarzinoms / The effect from valproic acid at the bone metastasis cells (VCaP) of the prostate cancer

Früchtenicht, Tanja

20 September 2011

No description available.

610 Medizin, Gesundheit

Medicine

Prostatakarzinom

VCaP

Valproat

TMPRSS2-ERG-Genfusion

Androgenzezeptor

ERß

TIMP-3

IGFBP-3

IGF

PSA PDEF

DD3

rtPCR

prostate cancer

VCaP

valproic acid

TMPRSS2-ERG fusion

androgen receptor

ERß

TIMP-3

IGFBP-3

IGF

PSA PDEF

DD3

rtPCR

44.81 Onkologie

44.88 Urologie

Nephrologie

MED 424 Onkologie

MED 472 Andrologie

MED 471 Urologie

Isolation and functional analysis of differentially expressed genes in human prostate cancer / Analysis of differentially expressed genes in human prostate cancer / Isolierung und funktionelle Analyse differentiell exprimierter Gene im humanen Prostatakarzinom / Analyse differentiell exprimierter Gene im humanen Prostatakarzinom

Grzmil, Michal

28 January 2003

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Prostatakrebs

Zellinvasion

Proliferation

Zellapoptose

prostate

cancer

invasion

proliferation

apoptosis

IGF-IR

MMP-2

IGFBP-3

BI-1

PC-3

LNCaP;siRNA

LCM

42.13

42.15

42.20

WH 000: Cytologie {Biologie}

Regulation of Bovine Mammary Epithelial Cell Response by Autocrine IGF-I and by Collagen I

Robinson, Rose Marie

24 August 2006

Understanding how insulin-like growth factor-I (IGF-I) signaling in mammary epithelial cells may be modified or interrupted by modifications in the cellular environment may lead to 1) methods to increase the growth and proliferation of normal mammary epithelial cells for an increase in the amount of milk produced on a per animal basis or to 2) the development of medical interventions to disrupt the growth and proliferation of cancerous mammary epithelial cells. IGF-I, a signaling protein provided by stromal cells and through the bloodstream, stimulates the proliferation of mammary epithelial cells and is crucial for mammary development. Collagen I is an extracellular matrix protein (ECM) found in skin and in other connective tissues throughout the body. The guiding question in this dissertation was how IGF-I signaling and how binding protein profile were influenced by autocrine IGF-I and by collagen I. The MAC-T cell line was chosen as the cell model utilized in these investigations because it is an immortalized bovine mammary epithelial cell line known to retain hormonal responsiveness to IGF-I. It was hypothesized that the production of IGF-I by mammary epithelial cells (autocrine secretion) would alter the response of these cells to additional IGF-I by de-sensitizing the IGF-I receptor on the cell surface. The normal mammary epithelial cell does not produce IGF-I and responds to IGF-I supplied either by stromal cells (paracrine pathway) or through the bloodstream (endocrine pathway). The IGF-I secreting bovine mammary epithelial cell line was investigated for the response of the cells to autocrine IGF-I, and the response was compared to the normal, parental cell line. To examine the effect of autocrine IGF-I on the cells, IGF-I was added both to MAC-T cells and to cells transfected to secrete IGF-I (SV40-IGF-I). The cell response of the two cell lines was compared using microphysiometry, a tool that measures IGF-IR stimulation by detecting resultant extracellular acidification. It was found that the SV40-IGF-I cell line retains IGF-I receptor sensitivity, yet, unlike the parental cell line, does not proliferate in response to IGF-I. Both cell lines exhibited increased protein synthesis in response to IGF-I as measured by amino acid uptake (AIB incorporation), but the lack of a proliferation response to additional IGF-I in the SV40-IGF-I cell line suggested that the autocrine cell line exhibited an un-coupling of IGF-IR stimulation with downstream cell proliferation. Both autocrine IGF-I and added IGF-I increased the amount of IGFBP-3 secreted by the cells into growth media. Additionally, it was hypothesized that the presence of collagen I, an important ECM protein, would alter the cell production of insulin-like binding protein-3 (IGFBP-3), a protein that modulates IGF-I interaction with the IGF-I receptor (IGF-IR). The literature reports that surface substrate can affect the phenotypic expression of cells, presumably via interaction with integrins, the cell surface receptors that connect cells to ECM proteins and that are responsible for cell adhesion and for cell migration. It was hypothesized that the MAC-T cells would interact with a collagen I surface (possibly via the a2b1 integrin) and that the stimulation of this transmembrane signaling molecule would in turn impact the IGF-I signaling pathway. Comparison studies on tissue culture plastic, collagen I BIOCOAT, and collagen I gel were performed. It was found that collagen I gel increased IGFBP-3 secretion and decreased insulin-like binding protein-2 (IGFBP-2) secretion in MAC-T cells. The collagen I BIOCOAT did not induce this response. Additional studies were performed to determine if there were differences in IGF-IR phosphorylation, exogenous IGF-I utilization, and IGFBP mRNA production by cells cultured on the three different substrates. IGF-IR phosphorylation was only evident following the addition of IGF-I to MAC-T cells on all three substrates. Measurement of residual IGF-I present in the cultured media of cells on all three substrates by radioimmunoassay did not reveal any differences in the amount of IGF-I present. Northern blot analysis revealed that the addition of IGF-I caused an increase in detected IGFBP-3 mRNA and a decrease in detected IGFBP-2 mRNA across all three surfaces. As measured by ligand blot analysis, cells cultured on all three surfaces showed an increase in IGFBP-3 protein in the media with IGF-I addition, and the collagen I gel showed more IGFBP-3 protein than the other two surfaces. However, cells cultured on collagen I gel showed a decrease in IGFBP-2 protein expression compared to cells cultured on tissue culture both with and without the addition of IGF-I. Cells cultured on tissue culture plastic and on collagen I BIOCOAT did not show a decrease in IGFBP-2 to correspond with the decreased IGFBP-2 mRNA detected in the presence of IGF-I on all three substrates. DNA assays to detect cell proliferation revealed no differences in cell DNA content in the absence of exogenous IGF-I and revealed similar increases in response to IGF-I addition on all three substrates. In conclusion, it was found that autocrine IGF-I un-couples increased IGF-IR stimulation by exogenous IGF-I from a downstream cell proliferation response. IGFBP-3 inhibits the ability of IGF-I to interact with the IGF-IR in MAC-T cells and inhibits subsequent cell proliferation. Collagen I gel increases IGFBP-3 secretion and decreases IGFBP-2 secretion by MAC-T cells. The relevance of this work is that it adds to the body of knowledge in understanding cellular function in mammary epithelial cells. It is known that the growth and the maintenance of living tissue are dependent on an intricate system of intercellular and intracellular responses which are orchestrated by the movement and secretion of proteins and other molecules. Goals of understanding mammary epithelial cell function include having the means to find ways to increase cell functionality via bioengineering and having the means to find ways to restore cells to normal function in disease processes such as cancer. / Ph. D.

Collagen I

IGF-I

Insulin-Like Growth Factor-I

IGFBP-3

MAC-T

IGFBP-2

Collagen I Gel