Changes in serum interleukin-8 (IL-8) levels reflect and predict response to anti-PD-1 treatment in melanoma and non-small-cell lung cancer patients.

BACKGROUND: Surrogate biomarkers of efficacy are needed for anti-PD1/PD-L1 therapy, given the existence of delayed responses and pseudo-progressions. We evaluated changes in serum IL-8 levels as a biomarker of response to anti-PD-1 blockade in melanoma and non-small-cell lung cancer (NSCLC) patients. PATIENTS AND METHODS: Metastatic melanoma and NSCLC patients treated with nivolumab or pembrolizumab alone or nivolumab plus ipilimumab were studied. Serum was collected at baseline; at 2-4 weeks after the first dose; and at the time-points of response evaluation. Serum IL-8 levels were determined by sandwich ELISA. Changes in serum IL-8 levels were compared with the Wilcoxon test and their strength of association with response was assessed with the Mann-Whitney test. Accuracy of changes in IL-8 levels to predict response was estimated using receiver operation characteristics curves. RESULTS: Twenty-nine melanoma patients treated with nivolumab or pembrolizumab were studied. In responding patients, serum IL-8 levels significantly decreased between baseline and best response (P <0.001), and significantly increased upon progression (P =  0.004). In non-responders, IL-8 levels significantly increased between baseline and progression (P =  0.013). Early changes in serum IL-8 levels (2-4 weeks after treatment initiation) were strongly associated with response (P <0.001). These observations were validated in 19 NSCLC patients treated with nivolumab or pembrolizumab (P =  0.001), and in 15 melanoma patients treated with nivolumab plus ipilimumab (P <0.001). Early decreases in serum IL-8 levels were associated with longer overall survival in melanoma (P =  0.001) and NSCLC (P =  0.015) patients. Serum IL-8 levels also correctly reflected true response in three cancer patients presenting pseudoprogression. CONCLUSIONS: Changes in serum IL-8 levels could be used to monitor and predict clinical benefit from immune checkpoint blockade in melanoma and NSCLC patients.

Deregulated E2F transcriptional activity in autonomously growing melanoma cells.

Inactivation of the retinoblastoma tumor suppressor protein (pRb) has been implicated in melanoma cells, but the molecular basis for this phenotype has not yet been elucidated, and the status of additional family members (p107 and p130, together termed pocket proteins) or the consequences on downstream targets such as E2F transcription factors are not known. Because cell cycle progression is dependent on the transcriptional activity of E2F family members (E2F1-E2F6), most of them regulated by suppressive association with pocket proteins, we characterized E2F-pocket protein DNA binding activity in normal versus malignant human melanocytes. By gel shift analysis, we show that in mitogen-dependent normal melanocytes, external growth factors tightly controlled the levels of growth-promoting free E2F DNA binding activity, composed largely of E2F2 and E2F4, and the growth-suppressive E2F4-p130 complexes. In contrast, in melanoma cells, free E2F DNA binding activity (E2F2 and E2F4, to a lesser extent E2F1, E2F3, and occasionally E2F5), was constitutively maintained at high levels independently of external melanocyte mitogens. E2F1 was the only family member more abundant in the melanoma cells compared with normal melanocytes, and the approximately fivefold increase in DNA binding activity could be accounted for mostly by a similar increase in the levels of the dimerization partner DP1. The continuous high expression of cyclin D1, A2, and E, the persistent cyclin-dependent kinase 4 (CDK4) and CDK2 activities, and the presence of hyperphosphorylated forms of pRb, p107, and p130, suggest that melanoma cells acquired the capacity for autonomous growth through inactivation of all three pocket proteins and release of E2F activity, otherwise tightly regulated in normal melanocytes by external growth factors.

Transformation of murine melanocytes by basic fibroblast growth factor cDNA and oncogenes and selective suppression of the transformed phenotype in a reconstituted cutaneous environment.

Constitutive expression of basic fibroblast growth factor (bFGF), a common characteristic of metastatic melanomas, was reproduced in vitro by infection of normal murine melanocytes with a recombinant retrovirus carrying a cDNA for bFGF. Expression of bFGF in these cells conferred autonomous growth in culture and extinguished differentiated functions, such as the synthesis of melanin and formation of dendrites. Independence from exogenous bFGF and loss of differentiated functions in vitro were induced also by transformation of melanocytes with the oncogenes myc, Ela, ras, and neu, although bFGF was not expressed by the respective transformants. As shown in skin reconstitution experiments onto syngeneic mice and subcutaneous injections into nude mice, the various transformants differed in their behavior in vivo. The bFGF transformants did not form tumors. They reverted to having a normal, melanotic phenotype and restricted growth. Myc and Ela transformants grew as tumors in nude mice but not in syngeneic, immunocompetent animals. Ras-transformed melanocytes were always tumorigenic, whereas the formation of tumors by neu transformants was suppressed by the concomitant grafting of keratinocytes in reconstituted skin of syngeneic mice. These data show that melanocytes genetically manipulated to produce bFGF acquire properties in vitro similar to those of metastatic melanoma cells or those induced by various oncogenes but that constitutive production of bFGF by itself is insufficient to make melanocytes tumorigenic. The experiments also show that melanocytes transformed by the selected oncogenes respond differentially to various environments in vivo.

Regulation of tyrosinase in human melanocytes grown in culture.

Tyrosinase, the enzyme that controls the synthesis of melanin, is a unique product of melanocytes. Normal and malignant human melanocytes grown in culture were used to study the factors that regulate the expression of tyrosinase. Immunoprecipitation experiments showed that newly synthesized tyrosinase appeared as a protein with an apparent molecular weight of 70,000 that was processed to a protein with an apparent molecular weight of 80,000. Neither tunicamycin nor 2-deoxy-D-glucose inhibited this conversion, suggesting that O-glycosylation is the major biochemical event in the posttranslational modification of tyrosinase. Agents that stimulated the proliferation of normal melanocytes also stimulated tyrosinase activity. Melanocytes with low levels of tyrosinase activity synthesized less tyrosinase, processed the enzyme more slowly, and degraded it more rapidly than melanocytes with high levels of tyrosinase activity. We conclude that tyrosinase activity in cultures of human melanocytes derived from different donors is determined predominantly by its abundance.

Basic fibroblast growth factor from human keratinocytes is a natural mitogen for melanocytes.

To survive and proliferate in pure culture, human melanocytes require basic fibroblast growth factor (bFGF) and cAMP. Without these factors, even in the presence of serum, the cells die. Melanocytes cultured in the presence of keratinocytes, however, survive for weeks without added bFGF and cAMP. We show here that the growth factor for melanocytes produced by human keratinocytes is bFGF because its activity can be abolished by neutralizing antibodies to bFGF and by a bFGF synthetic peptide that inhibits the binding of the growth factor to its receptor. The melanocyte mitogen in keratinocytes is cell associated and increases after irradiation with ultraviolet B. Northern blots reveal bFGF gene transcripts in keratinocytes but not melanocytes. These studies demonstrate that bFGF elaborated by keratinocytes in vitro sustains melanocyte growth and survival, and they suggest that keratinocyte-derived bFGF is the natural growth factor for normal human melanocytes in vivo.

Cytogenetic analysis of melanocytes from premalignant nevi and melanomas.

We karyotypically analyzed cultured melanocytes from a variety of lesions, including congenital and dysplastic nevi, primary melanoma, and metastatic melanoma. The cells derived from congenital nevi had normal karyotypes, as did 22 of the 26 cultures derived from dysplastic nevi. The karyotypes of melanocytes from primary and metastatic melanomas were all abnormal. The only chromosome change in common between the nevi with abnormal karyotypes and the melanomas was the loss of one copy of chromosome 9 (two of four nevi and four of 11 melanomas, including three from the same patient) or the loss of the short arm of chromosome 9, especially of region 9pter-p22 (three of 11 melanomas). We suggest that deletion of a gene or genes on 9p, possibly interferon genes, is an initial step in the malignant transformation of melanocytes.

Primary melanoma cells of the vertical growth phase: similarities to metastatic cells.

Three primary and 16 metastatic melanoma cell lines were established from primary and metastatic lesions of 4 patients with malignant melanoma. Comparison of metastatic melanoma cells with cells of the vertical growth phase (VGP) or late primary melanoma from the same individual revealed, generally, a shorter population-doubling time, growth to a higher cell density, higher tyrosinase activity, and more pigmentation in metastatic cells. Conversely, primary and metastatic melanoma cells had similar morphology, plating efficiency, and tumorigenicity in nude mice. Karyotypic analysis revealed clonality and nonrandom abnormalities in chromosomes 1, 6, and 7 in cells of the primary and metastatic lesions of the 3 patients studied. Few differences were found in the expression of melanoma-associated antigens on short-term and long-term cultured cells by tests with monoclonal antibodies in mixed hemadsorption assays, flow cytometry, and radioimmunoassays. Our results indicate that cells cultured from the VGP but not from the radial growth phase of primary melanoma are similar to metastatic melanoma cells.

AMPK promotes tolerance to Ras pathway inhibition by activating autophagy.

Targeted inhibitors of oncogenic Ras (rat sarcoma viral oncogene)-Raf signaling have shown great promise in the clinic, but resistance remains a major challenge: 30% of tumors with pathway mutations do not respond to targeted inhibitors, and of the 70% that do respond, all eventually develop resistance. Before cancer cells acquire resistance, they respond to initial drug treatment either by undergoing apoptosis ('addiction') or by surviving treatment albeit with reduced growth ('tolerance'). As these drug-tolerant cells serve as a reservoir from which resistant cells eventually emerge, inhibiting the pathways that confer tolerance could potentially delay or even prevent recurrence. Here, we show that melanomas and other cancers acquire tolerance to Ras-Raf pathway inhibitors by activating autophagy, which is mediated by the cellular energy sensor AMP-activated protein kinase (AMPK). Blocking this AMPK-mediated autophagy sensitizes drug-tolerant melanomas to Ras-Raf pathway inhibitors. Conversely, activating AMPK signaling and autophagy enables melanomas that would otherwise be addicted to the Ras-Raf pathway to instead tolerate pathway inhibition. These findings identify a key mechanism of tolerance to Ras-Raf pathway inhibitors and suggest that blocking either AMPK or autophagy in combination with these targeted inhibitors could increase tumor regression and decrease the likelihood of eventual recurrence.

Suppression of autocrine cell proliferation and tumorigenesis of human melanoma cells and fibroblast growth factor transformed fibroblasts by a kinase-deficient FGF receptor 1: evidence for the involvement of Src-family kinases.

Basic Fibroblast Growth Factor (bFGF/FGF2) is thought to play a decisive role in malignant progression. Aberrant expression of bFGF causes constitutive autocrine activation of its cognate receptor and autonomous growth of human melanoma cells or bFGF transformed fibroblasts in culture. It remains to be determined, however, whether the endogenous bFGF confers growth advantage to tumors and what are the downstream targets of the activated FGF receptor critical for its transforming capacity. We therefore transfected metastatic melanoma cells and bFGF transformed mouse fibroblasts with a dominant-negative mutant of the murine FGF receptor 1 (fgfr1/flg), comprising the extracellular and transmembrane domains but lacking the intracellular kinase domain (dnflg). Reverse transcriptase-PCR, 125I-bFGF binding and affinity labeling analyses show that the truncated receptor is targeted to the membrane and is expressed at much higher levels than the endogenous receptor in all of the selected clones. Expression of the dnflg dramatically reduces the basal as well as bFGF induced growth of these cells in vitro and also suppresses their tumorigenic potential in nude mice. The expression of the dnflg does not significantly alter the general level of tyrosyl-phosphorylated proteins in the trunsduced melanoma cells. Rather, a major downstream affected target is a Src-family kinase, whose activity, determined by an in vitro immune kinase assay, is stimulated in normal melanocytes by exogenous bFGF, and is markedly reduced in the dnflg-expressing melanoma cells. The present study demonstrates that direct interference with the activity of FGF receptors has a deleterious effect on cell proliferation and survival in vitro and in vivo leading to the suppression of melanoma tumor progression possibly through the inactivation of a Src-family kinase.

Release of cell cycle constraints in mouse melanocytes by overexpressed mutant E2F1E132, but not by deletion of p16INK4A or p21WAF1/CIP1.

Compared to normal melanocytes, melanoma cell lines exhibit overexpression of hyperphosphorylated retinoblastoma tumor suppressor protein (Rb) or a marked decrease in, or lack of, expression of Rb. Hyperphosphorylation of Rb results in increased E2F-mediated transactivation of target genes and cell cycle progression. Using a combination of gene disruption and ectopic expression in growth factor-dependent mouse melanocytes, we studied the roles of E2F1 and the p16INK4A and p21WAF1/CIP1 CKIs (cyclin dependent kinase inhibitors) in the acquisition of TPA (12-O-tetradecanoyl phorbol-13-acetate)-independent growth in culture, a hallmark of melanomas. Surprisingly, melanocytes from p16INK4A- or p21WAF1/CIP1-null mice remained TPA-dependent, and disruption of p21WAF1/CIP1 accelerated cell death in the absence of this mitogen. Disruption of E2F1 had the most profound effect on melanocyte growth, resulting in a fourfold decrease in growth rate in the presence of TPA. Furthermore, enforced overexpression of the DNA-binding-defective E2F1E132 mutant conferred TPA-independence upon melanocytes and was associated with sequestration of Rb and constitutive expression of E2F1 target genes, including p21WAF1/CIP1. We conclude that neutralization of Rb by E2F1E132, but not the disruption of p16INK4A or p21WAF1/CIP1, resulted in the accumulation of free E2F and cell cycle progression. Thus, mechanisms other than the loss of p16INK4A or p21WAF1/CIP1 that activate E2F may play an important role in melanomas.

KIT ligand (mast cell growth factor) inhibits the growth of KIT-expressing melanoma cells.

Previous studies in vivo and in vitro show that KIT kinase promotes normal melanocyte development and growth. However, the role of the KIT proto-oncogene in neoplastic melanocytes is not certain. We therefore examined KIT expression and function in human melanomas. Our results show that KIT mRNA was expressed in 12 of 28 melanoma cell lines (approximately 40%), mainly in those originating from pigmented tumors. Surprisingly, activation of KIT with mast cell growth factor (MGF) in melanoma cells produced biological responses opposite to those elicited in normal melanocytes. MGF inhibited rather than stimulated the growth of metastatic melanoma cell lines. The opposite effects may be due to aberrant signal transduction by KIT in melanoma cells in response to MGF. The in vitro inhibition of melanoma cells by MGF suggests that growth in vivo of this tumor is not promoted by KIT kinase activation, but rather that transformed melanocytes might regress when MGF is expressed in their immediate environment.

Met and hepatocyte growth factor/scatter factor signal transduction in normal melanocytes and melanoma cells.

The proto-oncogene c-MET encodes a transmembrane tyrosine kinase receptor for hepatocyte growth factor/scatter factor (HGF/SF). HGF/SF stimulates the proliferation and motility of various cell types. Because HGF/SF is also a melanocyte mitogen, we investigated the biological role of HGF/SF, including c-Met expression, activation and signal transduction, in normal and malignant human melanocytes. We show that HGF/SF is mitogenic in the presence of synergistic factors, such as basic fibroblast growth factor (bFGF) and mast cell growth factor (MGF) and that, by itself, it stimulates the motility of normal human melanocytes. The ligand also maintained high levels of tyrosinase activity and melanin content in theses cells. Signal transduction by HGF/SF included phosphorylation of tyrosyl residues on c-Met, a cascade of tyrosine phosphorylations on several other proteins and activation of microtubule-associated protein kinase/extracellular signal-regulated kinase. Met expression and activity are normal in human melanomas, and constitutive activity of HGF/SF in retrovirally infected autonomously proliferative mouse melanocytes is insufficient to confer the malignant phenotype. Our findings suggest that activation of Met in response to HGF/SF may contribute to malignant progression synergistically with the aberrant expression of bFGF in malignant melanocytes and that, in addition, the peptide may promote dispersion of factor-dependent melanocytes from early stages of primary melanomas to ectopic sites.

Recognition of activated CSF-1 receptor in breast carcinomas by a tyrosine 723 phosphospecific antibody.

The macrophage colony stimulating factor receptor (CSF-1R), the product of the c-fms proto-oncogene, plays an important role in regulating the normal proliferation and differentiation of macrophages and trophoblasts. However, the abnormal expression of CSF-1R transcripts and protein by human breast carcinomas has been shown to correlate with advanced stage and poor prognosis. Ligand activated CSF-1R dimers transphosphorylate several tyrosines in their cytoplasmic domains which provide recognition sites for various effector proteins in multiple signal transduction pathways. In cells transformed by the c-fms oncogene, one of the major CSF-1R phosphotyrosines, pTyr723 is important for phenotypic expression of anchorage-independent growth and metastasis. In order to investigate the relationship between receptor activation/phosphorylation and cellular phenotypes in vitro and in vivo, we prepared a CSF-1R phosphorylation-state specific antibody raised against a specific phosphopeptide of CSF-1R, which included phosphorylated tyrosine 723. On immunoblots of lysates from cells expressing CSF-1R, this antibody recognizes phosphorylated CSF-IR in CSF-1 stimulated cells but not in unstimulated cells. As an immunohistochemical reagent, this antibody stained 52% of invasive human breast tumors (72% of CSF-1R positive cases) in a sample of 114 cases and 38% of carcinoma in situ. This data represents the first direct evidence of in vivo phosphorylation of CSF-1R in human breast carcinomas.

Diminished TCR signaling in cutaneous T cell lymphoma is associated with decreased activities of Zap70, Syk and membrane-associated Csk.

Malignant cells of patients with cutaneous T cell lymphoma (CTCL) are of monoclonal origin and of the CD4+/CD45RO+ subset. Since unlike their normal counterparts, triggering of their TCR/CD3 in vitro elicits only a weak mitogenic response, we set out to determine which of the signal transduction molecules initiated by anti-CD3E antibodies are affected in neoplastic cells. The results obtained from analysis of tumor cells from four patients show a general reduction in basal and induced tyrosine phosphorylation of a wide range of signaling proteins. Furthermore, the function of members from distinct families of protein tyrosine kinases was altered in neoplastic cells. The enzymatic activity of the membrane-bound fraction of Csk was suppressed, and its association with other cellular proteins was altered. There was a decline in the amount and activity of Syk, and a slight decrease in the specific activity of Lck kinases. Zap70 tyrosyl phosphorylation was reduced or undetectable and the kinase associated weakly, or not at all, with the TCR zeta chain. We propose that dampened TCR-triggered responses in CTCL are caused by suppression of an array of effector molecules required for coupling cell surface receptors to early and late signaling events.

Growth factors, receptor kinases, and protein tyrosine phosphatases in normal and malignant melanocytes.

Normal human melanocyte proliferation and differentiation is dependent on stimulation of one of three growth factor/receptor systems. They are fibroblast growth factor (FGF), hepatocyte growth factor (HGF), and mast cell growth factor (MGF), which activate the FGF receptor, c-Met, and c-Kit, respectively, known to be receptor tyrosine kinases. In contrast, human melanoma cells from primary nodular and metastatic lesions grow autonomously partially because of inappropriate production of basic FGF (bFGF) and continuous activation of the bFGF-receptor kinase. Activation of transmembrane receptor tyrosine kinases in melanocytes stimulates not only proliferation but also the expression of pigmentation. Melanoma cells constitutively express several tyrosyl-phosphorylated proteins that in normal melanocytes are stimulated in response to growth factors. This high level of phosphorylation was not due to either the presence of constitutively active Kit kinase and Met kinase nor to the absence of any of several known protein tyrosine phosphatases. Because bFGF by itself does not transform melanocytes to melanomas, there must be additional cooperating factors that confer the malignant phenotype to pigment cells.

White mutants in mice shedding light on humans.

In this article we describe the rapid advances made in the molecular genetics of three inherited pigmentation disorders: albinism, piebaldism, and vitiligo, all of which throw light on normal pigment cell function. The focus is on studies in mice, with comparison of data in humans. The critical role of tyrosinase (c-locus or human tyrosinase protein) in normal pigmentation and albinism has been reinforced by the cloning and identification of mutations in tyrosinase and two other melanocyte-specific oxidoreductases structurally related to but functionally different from tyrosinase: the (b) brown-locus protein/gp75/catalase B and dopachrome tautomerase. Each possesses a distinct enzyme activity and yet the three share homology in strategic regions. Most of the point mutations that reduce or abrogate the respective enzyme activities are located in those regions. Tyrosinase-negative albinism is caused only by defects in tyrosinase. A locus for human tyrosinase-positive albinism has been recently mapped to chromosome 15q11.2-->q12, at a gene identified in mice as pink-eyed dilution. On the other hand, several genes encoding proteins critical for the proliferation of melanocytes are known to control the piebald phenotype. So far identified are two membrane-receptor tyrosine kinases, c-Kit and PDGF-R/alpha, and the ligand for c-kit, MGF (mast-cell growth factor, also known as stem-cell factor, c-Kit-ligand, or steel factor). Mutations in W/c-kit (white spotting), Ph/Pdgfr/a (patch), and Sl/MGF (steel), lead to a reduction in receptor kinase activity and failure of melanocytes to thrive and reach the skin during embryogenesis. Finally, mouse mutant models suggest at least two possible causes for vitiligo, a progressive loss of pigmentation that occurs after birth. In one mutant, the Blt (light) mouse, the cyclic death of hair melanocytes may be due to the toxicity of intermediates and byproducts of melanogenesis in the presence of a dysfunctional b-locus protein. In the other model, the "vitiligo mouse," in which the allele vit has been assigned to the microphthalmia (mi) locus, the loss of melanocytes may be caused by defective signal transduction, because in addition to vitiligo mivit/mivit mice have extensive piebaldism.

Establishment of proliferative, pure cultures of pigmented chicken melanocytes from neural tubes.

In order to obtain pure cultures of chicken melanocytes, neural tubes were excised from 22-somite stage embryos and placed in culture dishes to allow melanoblasts to migrate out and proliferate. The growth of contaminating cells was inhibited by maintaining the primary cultures in low-calcium and low-magnesium medium supplemented with 32 nM 12-O-tetradecanoylphorbol-13-acetate (TPA). Subsequently the pure cultures of melanocytes were maintained in Ham's F-10 medium supplemented with TPA. The population doubling time was approximately 12 h. The cell density at confluency in medium containing 32 nM TPA, 80 nM TPA, or 32 nM TPA plus 1 nM cholera toxin was 3.4, 5.6, or 8.3 X 10(4) cells/cm2, respectively. The melanocytes were highly pigmented and had tyrosinase activities ranging from 0.7-5.0 mU/mg protein.

Localization of basic fibroblast growth factor mRNA in melanocytic lesions by in situ hybridization.

Basic fibroblast growth factor (bFGF) is a mitogen for normal human melanocytes and keratinocytes in culture. Experiments in vitro suggest that keratinocytes supply bFGF to melanocytes through a paracrine mechanism and that the aberrant expression of bFGF in melanomas confers growth independence from bFGF-producing cells. To determine whether bFGF is expressed in vivo, we examined a series of benign and malignant melanocytic lesions in situ using bFGF riboprobes on tissue sections, and correlated bFGF expression with histologic phenotype. Seventeen melanocytic neoplasms were studied, including four common acquired nevi, four dysplastic nevi, four primary malignant melanomas, and five metastatic melanomas. Nevic cells in benign intradermal nevi showed low signal intensity (1+), whereas compound and dysplastic nevi showed 2+ to 3+ expression in the junctional nevic cell population and 1+ expression in the dermal nevic cell population. Melanocytes in primary melanomas had intermediate (2+) and those in metastatic melanomas had low (1+) levels of bFGF gene transcripts. Fibroblasts expressed high levels (3+) and epidermal and adnexal keratinocytes moderate (2+) levels of bFGF in all cases studied. Basic FGF expression in endothelial cells, known to produce and respond to this growth factor in vitro, was lower than that in the fibroblast and keratinocyte cell population and, in 10 of 17 cases, no bFGF mRNA was detectable. This study shows that bFGF is expressed in nevomelanocytes in vivo in all melanocytic lesions studied and thus cannot be used as a marker for transformation. The presence of bFGF gene transcripts in the various dermal cell types and in keratinocytes suggests that it may act as an autocrine and paracrine growth factor in regulating cellular proliferation in the skin.

Phorbol ester serves as a coepibolin in the spreading of primary guinea pig epidermal cells.

In earlier studies, it was shown that the human plasma-spreading glycoprotein, epibolin (the 65 kD species of serum-spreading factor or vitronectin), requires a second plasma component, termed coepibolin, in order to support maximal dissociated epidermal cell spreading in tissue culture. Whereas epibolin alone in defined medium supports some cell spreading, the purified plasma coepibolin preparations do not effect spreading in the absence of epibolin. Although not yet entirely purified, coepibolin associates with some plasma fractions but not with others; it is certainly not a property of all proteins, e.g., while bovine serum albumin (BSA) has coepibolin activity, ovalbumin does not. The data presented here show that the phorbol ester, 12-tetra-decanoyl-1-phorbol-13-acetate (TPA) can act as a potent coepibolin and support maximal spreading over a concentration range of 10-100 ng/ml. In the absence of epibolin TPA does not stimulate the spreading of epidermal cells when given alone or in the presence of BSA or ovalbumin. Coepibolin activity appears to associate with tumor-promoting activity in that the phorbol derivative, phorbol-12,13-didecanoate, shows coepibolin activity, while its inactive non-tumor-promoting isomer, phorbol-4 alpha-phorbol-12,13-didecanoate, does not. These data suggest that the proteinaceous plasma-derived cofactor acts in a fashion similar to TPA and that this as yet unexplained mechanism of TPA action is important to the full expression of epibolin and to the early phase of epidermal cell spreading.

Tyrosinase and acid phosphatase activities in melanocytes from avian albinos.

Two forms of cutaneous albinism in the chicken were investigated for the presence and distribution of tyrosinase and acid phosphatase in melanocytes in situ and in culture. In sex-linked recessive tyrosinase-positive albinism, sal, melanocytes in regenerating feathers and neural tube-derived cultures contained morphologically normal and abnormal premelanosomes. Tyrosinase was localized primarily to the abnormal premelanosomes and probably not to the normal ones. The cells possessed, in addition, vacuoles with membranous inclusions, located in the dendrites, and capped by dopa-positive vesicles (capping vesicles). Acid phosphatase colocalized with tyrosinase in the abnormal premelanosomes and capping vesicles. Tyrosinase activity in extracts of cultured sal melanocytes equalled that of e+ control melanocytes. A tyrosinase antiserum, raised against hamster tyrosinase (Pomerantz), precipitated 2 proteins, 68 kD and 82 kD, which had a precursor-product relationship. The amount of immunoprecipitate was the same in sal and control extracts, but in sal extracts the lower-molecular-weight protein was twice as abundant as the higher-molecular-weight protein. Melanocytes in regenerating feathers from an autosomal recessive, tyrosinase-negative albino, ca, also contained morphologically normal and abnormal premelanosomes. In culture, ca melanocytes had no formal premelanosomes but only dopa-negative multivesicular bodies with wispy filamentous material. Tyrosinase activity and immunoprecipitable tyrosinase were absent. These results suggest that: the tyrosinase-positive albino, sal, has an aberration in both its tyrosinase and acid phosphatase profiles and the tyrosinase-negative albino, ca, lacks functionally and antigenically normal tyrosinase.